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Wikipedia

Mycoplasma

October 18, 2023

This article is about a genus of bacteria. For the species causing atypical pneumonia, see Mycoplasma pneumoniae.
Not to be confused with Mycobacteria.

Mycoplasma is a genus of bacteria that, like the other members of the class Mollicutes, lack a cell wall around their cell membranes.[1] Peptidoglycan (murein) is absent. This characteristic makes them naturally resistant to antibiotics that target cell wall synthesis (like the beta-lactam antibiotics). They can be parasitic or saprotrophic. Several species are pathogenic in humans, including M. pneumoniae, which is an important cause of "walking" pneumonia and other respiratory disorders, and M. genitalium, which is believed to be involved in pelvic inflammatory diseases. Mycoplasma species (like the other species of the class Mollicutes) are among the smallest organisms yet discovered,[2] can survive without oxygen, and come in various shapes. For example, M. genitalium is flask-shaped (about 300 x 600 nm), while M. pneumoniae is more elongated (about 100 x 1000 nm), many Mycoplasma species are coccoid. Hundreds of Mycoplasma species infect animals.[3]

Mycoplasma
Mycoplasma haemofelis
Scientific classification
Domain: Bacteria
Phylum: Mycoplasmatota
Class: Mollicutes
Order: Mycoplasmatales
Family: Mycoplasmataceae
Genus: Mycoplasma
J.Nowak 1929
Type species
Mycoplasma peripneumoniae
Nowak 1929
Species

See text

Synonyms
  • "Asterococcus" Borrel et al. 1910 non Scherffel 1908 non Borkhsenius 1960
  • "Asteromyces" Wroblewski 1931 non Moreau & Moreau ex Hennebert 1962
  • "Borrelomyces" Turner 1935
  • "Bovimyces" Sabin 1941
  • Haemobartonella Tyzzer & Weinman 1939
  • "Pleuropneumonia" Tulasne & Brisou 1955

The trivial name “mycoplasma” (plural mycoplasmas or mycoplasms) is commonly used for all members of the class Mollicutes. In scientific classification, the designation Mycoplasma refers exclusively to the genus, a member of the Mycoplasmataceae, the only family of the order Mycoplasmatales (see “scientific classification”).

Etymology Edit

The term "mycoplasma", from the Greek μύκης, mykes (fungus) and πλάσμα, plasma (formed), was first used by Albert Bernhard Frank in 1889 to describe an altered state of plant cell cytoplasm resulting from infiltration by fungus-like microorganisms.[4][5] Julian Nowak later proposed the name mycoplasma for certain filamentous microorganisms imagined to have both cellular and acellular stages in their lifecycles, which could explain how they were visible with a microscope, but passed through filters impermeable to other bacteria.[6] Later, the name for these mycoplasmas was pleuropneumonia-like organisms (PPLO), broadly referring to organisms similar in colonial morphology and filterability to the causative agent (a Mycoplasma species) of contagious bovine pleuropneumonia.[7] At present, all these organisms are classified as Mollicutes and the term Mycoplasma refers solely to the genus.[citation needed]

Species that infect humans Edit

Species of Mycoplasma, other than those listed below, have been recovered from humans, but are assumed to have been contracted from a non-human host. The following species use humans as the primary host:[citation needed]

Pathophysiology Edit

Mycoplasma species have been isolated from women with bacterial vaginosis.[3] M. genitalium is found in women with pelvic inflammatory disease.[9] In addition, infection is associated with increased risk of cervicitis, infertility, preterm birth and spontaneous abortion.[10] Mycoplasma genitalium has developed resistance to some antibiotics.[11] Mycoplasma species are associated with infant respiratory distress syndrome, bronchopulmonary dysplasia, and intraventricular hemorrhage in preterm infants.[3]

Characteristics Edit

Over 100 species have been included in the genus Mycoplasma, a member of the class Mollicutes. They are parasites or commensals of humans, animals, and plants. The genus Mycoplasma uses vertebrate and arthropod hosts.[12] Dietary nitrogen availability has been shown to alter codon bias and genome evolution in Mycoplasma and Phytoplasma.[13]

Mycoplasma species are among the smallest free-living organisms (about 0.2 - 0.3 µm in diameter).[14][15] They have been found in the pleural cavities of cattle suffering from pleuropneumonia. These organisms are often called MLO (mycoplasma-like organisms) or, formerly, PPLO (pleuropneumonia-like organisms).[7]

Important characteristics of Mycoplasma species Edit

  1. Cell wall is absent and plasma membrane forms the outer boundary of the cell.
  2. Due to the absence of cell walls these organisms can change their shape and are pleomorphic.
  3. Lack of nucleus and other membrane-bound organelles.
  4. Genetic material is a single DNA duplex and is naked.
  5. Ribosomes are 70S type.
  6. Possess a replicating disc at one end which assists replication process and also the separation of the genetic materials.
  7. Heterotrophic nutrition. Some live as saprophytes but the majority are parasites of plants and animals. The parasitic nature is due to the inability of mycoplasmal bacteria to synthesise the required growth factor.

Cell and colony morphology Edit

Due to the lack of a rigid cell wall, Mycoplasma species (like all Mollicutes) can contort into a broad range of shapes, from round to oblong. They are pleomorphic and therefore cannot be identified as rods, cocci or spirochetes.[16]

 
Colony morphology of Mycoplasma on Hayflick agar

Colonies show the typical "fried egg" appearance (about 0.5 mm in diameter).[15]

Reproduction Edit

In 1954, using phase-contrast microscopy, continual observations of live cells have shown that Mycoplasma species ("mycoplasmas", formerly called pleuropneumonia-like organisms, PPLO, now classified as Mollicutes) and L-form bacteria (previously also called L-phase bacteria) do not proliferate by binary fission, but by a uni- or multi-polar budding mechanism. Microphotograph series of growing microcultures of different strains of PPLOs, L-form bacteria and, as a control, a Micrococcus species (dividing by binary fission) have been presented.[15]  Additionally, electron microscopic studies have been performed.[17]

Phylogeny Edit

Previously, Mycoplasma species (often commonly called "mycoplasmas", now classified as Mollicutes) were sometimes considered stable L-form bacteria or even viruses, but phylogenetic analysis has identified them as bacteria that have lost their cell walls in the course of evolution.[18]

The genus Mycoplasma as originally described is highly paraphyletic, as such it was redescibed by Gupta et al. 2018 and its emendation was accompanied by the removal of 78 species.[19] The currently accepted taxonomy is based on the List of Prokaryotic names with Standing in Nomenclature (LPSN)[20] and National Center for Biotechnology Information (NCBI).[21] The proposed taxonomy has been contentious and has not been widely adopted by mycoplasmologists.[22]

16S rRNA based LTP_01_2022[23][24][25] 120 marker proteins based GTDB 07-RS207[26][27][28]

M. putrefaciens Tully et al. 1974

M. cottewii Da Massa et al. 1994

M. yeatsii Da Massa et al. 1994

M. capri (Edward 1953) Hudson, Cottew & Adler 1967 non El Nasri 1966

M. mycoides (Borrel et al. 1910) Freundt 1955

M. capricolum Tully et al. 1974

M. capricolum capripneumoniae Leach, Erno & MacOwan 1993

M. leachii Manso-Silván et al. 2009

M. putrefaciens

M. yeatsii

M. feriruminatoris Fischer et al. 2015[29]

M. capri

M. mycoides

M. capricolum

M. leachii

Unassigned species:

  • "Ca. M. aoti" Barker et al. 2011
  • "Ca. M. corallicola" Neulinger et al. 2009
  • "Ca. M. erythrocervae" Watanabe et al. 2010
  • "Ca. M. haematocervi" corrig. Watanabe et al. 2010
  • "Ca. M. haematodidelphidis" corrig. Messick et al. 2002
  • "Ca. M. haematomacacae" corrig. Maggi et al. 2013
  • "Ca. M. haematominiopteri" corrig. Millán et al. 2015
  • "Ca. M. haematonasua" Collere et al. 2021
  • "Ca. M. haematoparvum" Sykes et al. 2005
  • "Ca. M. haematovis" corrig. Hornok et al. 2009
  • "Ca. M. haemoalbiventris" Pontarolo et al. 2021
  • "Ca. M. haemobovis" Meli et al. 2010
  • "Ca. M. haemomeles" Harasawa, Orusa &Giangaspero 2014
  • "Ca. M. haemomuris" (Mayer 1921) Neimark et al. 2002
  • "Ca. M. haemoparvum" Kenny et al. 2004
  • "Ca. M. haemosphiggurus" Valente et al. 2021
  • M. hafezii Ziegler et al. 2019
  • "M. incognitus" Lo et al. 1989
  • "M. insons" May et al. 2007
  • "Ca. M. kahanei" Neimark et al. 2002
  • M. miroungigenitalium Volokhov et al. 2022
  • M. miroungirhinis Volokhov et al. 2022
  • "M. monodon" Ghadersohi & Owens 1998
  • M. phocoenae Volokhov et al. 2022
  • M. phocoeninasale Volokhov et al. 2022
  • "M. pneumophila" Lyerova et al. 2008
  • "Ca. M. ravipulmonis" Neimark, Mitchelmore & Leach 1998
  • M. seminis Fischer et al. 2021
  • "M. sphenisci" Frasca et al. 2005
  • "M. tauri" Spergser et al. 2021
  • "M. timone" Greub & Raoult 2001
  • "Ca. M. tructae" Sanchez et al. 2020
  • "Ca. M. turicense" corrig. Willi et al. 2006
  • "M. volis" Dillehay et al. 1995
  • "M. vulturii" Oaks et al. 2004

Laboratory contaminant Edit

Mycoplasma species are often found in research laboratories as contaminants in cell culture. Mycoplasmal cell culture contamination occurs due to contamination from individuals or contaminated cell culture medium ingredients.[30] Mycoplasma cells are physically small – less than 1  µm, so are difficult to detect with a conventional microscope.[citation needed]

Mycoplasmae may induce cellular changes, including chromosome aberrations, changes in metabolism and cell growth. Severe Mycoplasma infections may destroy a cell line. Detection techniques include DNA probe, enzyme immunoassays, PCR, plating on sensitive agar and staining with a DNA stain including DAPI or Hoechst.[31]

An estimated 11 to 15% of U.S. laboratory cell cultures are contaminated with mycoplasma. A Corning study showed that half of U.S. scientists did not test for Mycoplasma contamination in their cell cultures. The study also stated that, in former Czechoslovakia, 100% of cell cultures that were not routinely tested were contaminated while only 2% of those routinely tested were contaminated (study p. 6). Since the U.S. contamination rate was based on a study of companies that routinely checked for Mycoplasma, the actual contamination rate may be higher. European contamination rates are higher and that of other countries are higher still (up to 80% of Japanese cell cultures).[32] About 1% of published Gene Expression Omnibus data may have been compromised.[33][34] Several antibiotic-containing formulations of antimycoplasmal reagents have been developed over the years.[35]

Synthetic mycoplasma genome Edit

A chemically synthesized genome of a mycoplasmal cell based entirely on synthetic DNA which can self-replicate has been referred to as Mycoplasma laboratorium.[36]

Pathogenicity Edit

The P1 antigen is the primary virulence factor of mycoplasma. P1 is a membrane associated protein that allows adhesion to epithelial cells. The P1 receptor is also expressed on erythrocytes which can lead to autoantibody agglutination from mycobacteria infection.[37] Several Mycoplasma species can cause disease, including M. pneumoniae, which is an important cause of atypical pneumonia (formerly known as "walking pneumonia"), and M. genitalium, which has been associated with pelvic inflammatory diseases. Mycoplasma infections in humans are associated with skin eruptions in 17% of cases.[38]: 293 

Sexually transmitted infections Edit

Mycoplasma and Ureaplasma species are not part of the normal vaginal flora. Some Mycoplasma species are spread through sexual contact.[39]

Infertility Edit

Some Mycoplasma species have a negative effect on fertility.[39] M. hominis causes male sterility/Genitals inflammation in humans.[citation needed]

Infant mortality Edit

Low birth-weight, preterm infants are susceptible to Mycoplasma infections.[8]

Links to cancer Edit

Several species of Mycoplasma are frequently detected in different types of cancer cells.[40][41][42] These species are:

The majority of these Mycoplasma species have shown a strong correlation to malignant transformation in mammalian cells in vitro.

Mycoplasma infection and host cell transformation Edit

The presence of Mycoplasma was first reported in samples of cancer tissue in the 1960s.[42] Since then, several studies tried to find and prove the connection between Mycoplasma and cancer, as well as how the bacterium might be involved in the formation of cancer.[41] Several studies have shown that cells that are chronically infected with the bacteria go through a multistep transformation. The changes caused by chronic mycoplasmal infections occur gradually and are both morphological and genetic.[41] The first visual sign of infection is when the cells gradually shift from their normal form to sickle-shaped. They also become hyperchromatic due to an increase of DNA in the nucleus of the cells. In later stages, the cells lose the need for solid support to grow and proliferate,[49] as well as the normal contact-dependent inhibition cells.[42]

Possible intracellular mechanisms of mycoplasmal malignant transformation Edit

Karyotypic changes related to mycoplasma infections

Cells infected with Mycoplasma for an extended period of time show significant chromosomal abnormalities. These include the addition of chromosomes, the loss of entire chromosomes, partial loss of chromosomes, and chromosomal translocation. All of these genetic abnormalities may contribute to the process of malignant transformation. Chromosomal translocation and extra chromosomes help create abnormally high activity of certain proto-oncogenes, which caused by these genetic abnormalities and include those encoding c-myc, HRAS,[43] and vav.[41] The activity of proto-oncogenes is not the only cellular function that is affected; tumour suppressor genes are affected by the chromosomal changes induced by mycoplasma, as well. Partial or complete loss of chromosomes causes the loss of important genes involved in the regulation of cell proliferation.[42] Two genes whose activities are markedly decreased during chronic infections with mycoplasma are the Rb and the p53 tumour suppressor genes.[41] Another possible mechanism of carcinogenesis is RAC1 activation by a small GTPase-like protein fragment of Mycoplasma.[50] A major feature that differentiates mycoplasmas from other carcinogenic pathogens is that the mycoplasmas do not cause the cellular changes by insertion of their own genetic material into the host cell.[43] The exact mechanism by which the bacterium causes the changes is not yet known.[citation needed]

Partial reversibility of malignant transformations

The malignant transformation induced by Mycoplasma species is also different from that caused by other pathogens in that the process is reversible. The state of reversal is, however, only possible up to a certain point during the infection. The window of time when reversibility is possible varies greatly; it depends primarily on the Mycoplasma involved. In the case of M. fermentans, the transformation is reversible until around week 11 of infection and starts to become irreversible between weeks 11 and 18.[42] If the bacteria are killed using antibiotics[42] (i.e. ciprofloxacin[41] or Clarithromycin[51]) before the irreversible stage, the infected cells should return to normal.

Connections to cancer in vivo and future research Edit

Epidemiologic, genetic, and molecular studies suggest infection and inflammation initiate certain cancers, including those of the prostate. M. genitalium and M. hyorhinis induce malignant phenotype in benign human prostate cells (BPH-1) that were not tumorigenic after 19 weeks of exposure. [46]

Types of cancer associated with Mycoplasma Edit

Colon cancer: In a study to understand the effects of Mycoplasma contamination on the quality of cultured human colon cancer cells, a positive correlation was found between the number of M. hyorhinis cells present in the sample and the percentage of CD133-positive cells (a glycoprotein with an unknown function).[52]

Gastric cancer: Strong evidence indicates the infection of M. hyorhinis contributes to the development of cancer within the stomach and increases the likelihood of malignant cancer cell development.[53]

Lung cancer: Studies on lung cancer have supported the belief that more than a coincidental positive correlation exists between the appearance of Mycoplasma strains in patients and the infection with tumorigenesis.[54]

Prostate cancer: p37, a protein encoded for by M. hyorhinis, has been found to promote the invasiveness of prostate cancer cells. The protein also causes the growth, morphology, and gene expression of the cells to change, causing them to become a more aggressive phenotype.[55]

Renal cancer: Patients with renal cell carcinoma (RCC) exhibited a significantly high amount of Mycoplasma sp. compared with the healthy control group. This suggests Mycoplasma may play a role in the development of RCC.[51]

See also Edit

References Edit

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  48. ^ Xiaolei C, Taot H, Zongli S, Hongying Y (2014). "The role of ureaplasma urealyticum infection in cervical intraepithelial neoplasia and cervical cancer". European Journal of Gynaecological Oncology. 35 (5): 571–5. PMID 25423707.
  49. ^ Lopes, B. R. P.; Ribeiro, A. G.; Silva, T. F.; Barbosa, L. V.; Jesus, T. I.; Matsuda, B. K.; Costa, M. F.; Toledo, K. A. (February 2021). "Diagnosis and treatment of HEp-2 cells contaminated with mycoplasma". Brazilian Journal of Biology. 81 (1): 37–43. doi:10.1590/1519-6984.215721. ISSN 1678-4375. PMID 32321065.
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External links Edit

  • Ureaplasma Infection: eMedicine Infectious Diseases

October 18, 2023
mycoplasma, this, article, about, genus, bacteria, species, causing, atypical, pneumonia, pneumoniae, confused, with, mycobacteria, genus, bacteria, that, like, other, members, class, mollicutes, lack, cell, wall, around, their, cell, membranes, peptidoglycan,. This article is about a genus of bacteria For the species causing atypical pneumonia see Mycoplasma pneumoniae Not to be confused with Mycobacteria Mycoplasma is a genus of bacteria that like the other members of the class Mollicutes lack a cell wall around their cell membranes 1 Peptidoglycan murein is absent This characteristic makes them naturally resistant to antibiotics that target cell wall synthesis like the beta lactam antibiotics They can be parasitic or saprotrophic Several species are pathogenic in humans including M pneumoniae which is an important cause of walking pneumonia and other respiratory disorders and M genitalium which is believed to be involved in pelvic inflammatory diseases Mycoplasma species like the other species of the class Mollicutes are among the smallest organisms yet discovered 2 can survive without oxygen and come in various shapes For example M genitalium is flask shaped about 300 x 600 nm while M pneumoniae is more elongated about 100 x 1000 nm many Mycoplasma species are coccoid Hundreds of Mycoplasma species infect animals 3 MycoplasmaMycoplasma haemofelisScientific classificationDomain BacteriaPhylum MycoplasmatotaClass MollicutesOrder MycoplasmatalesFamily MycoplasmataceaeGenus MycoplasmaJ Nowak 1929Type speciesMycoplasma peripneumoniaeNowak 1929SpeciesSee textSynonyms Asterococcus Borrel et al 1910 non Scherffel 1908 non Borkhsenius 1960 Asteromyces Wroblewski 1931 non Moreau amp Moreau ex Hennebert 1962 Borrelomyces Turner 1935 Bovimyces Sabin 1941 Haemobartonella Tyzzer amp Weinman 1939 Pleuropneumonia Tulasne amp Brisou 1955MycoplasmosisSpecialtyInfectious diseaseThe trivial name mycoplasma plural mycoplasmas or mycoplasms is commonly used for all members of the class Mollicutes In scientific classification the designation Mycoplasma refers exclusively to the genus a member of the Mycoplasmataceae the only family of the order Mycoplasmatales see scientific classification Contents 1 Etymology 2 Species that infect humans 3 Pathophysiology 4 Characteristics 4 1 Important characteristics of Mycoplasma species 4 2 Cell and colony morphology 4 3 Reproduction 4 4 Phylogeny 5 Laboratory contaminant 6 Synthetic mycoplasma genome 7 Pathogenicity 7 1 Sexually transmitted infections 7 2 Infertility 7 3 Infant mortality 7 4 Links to cancer 7 4 1 Mycoplasma infection and host cell transformation 7 4 2 Possible intracellular mechanisms of mycoplasmal malignant transformation 7 4 3 Connections to cancer in vivo and future research 7 4 4 Types of cancer associated with Mycoplasma 8 See also 9 References 10 External linksEtymology EditThe term mycoplasma from the Greek mykhs mykes fungus and plasma plasma formed was first used by Albert Bernhard Frank in 1889 to describe an altered state of plant cell cytoplasm resulting from infiltration by fungus like microorganisms 4 5 Julian Nowak later proposed the name mycoplasma for certain filamentous microorganisms imagined to have both cellular and acellular stages in their lifecycles which could explain how they were visible with a microscope but passed through filters impermeable to other bacteria 6 Later the name for these mycoplasmas was pleuropneumonia like organisms PPLO broadly referring to organisms similar in colonial morphology and filterability to the causative agent a Mycoplasma species of contagious bovine pleuropneumonia 7 At present all these organisms are classified as Mollicutes and the term Mycoplasma refers solely to the genus citation needed Species that infect humans EditSpecies of Mycoplasma other than those listed below have been recovered from humans but are assumed to have been contracted from a non human host The following species use humans as the primary host citation needed M amphoriforme M buccale M faucium M fermentans M genitalium M hominis M incognitus M lipophilum M orale M penetrans M pirum M pneumoniae M primatum M salivarium M spermatophilum 8 Pathophysiology EditMycoplasma species have been isolated from women with bacterial vaginosis 3 M genitalium is found in women with pelvic inflammatory disease 9 In addition infection is associated with increased risk of cervicitis infertility preterm birth and spontaneous abortion 10 Mycoplasma genitalium has developed resistance to some antibiotics 11 Mycoplasma species are associated with infant respiratory distress syndrome bronchopulmonary dysplasia and intraventricular hemorrhage in preterm infants 3 Characteristics EditOver 100 species have been included in the genus Mycoplasma a member of the class Mollicutes They are parasites or commensals of humans animals and plants The genus Mycoplasma uses vertebrate and arthropod hosts 12 Dietary nitrogen availability has been shown to alter codon bias and genome evolution in Mycoplasma and Phytoplasma 13 Mycoplasma species are among the smallest free living organisms about 0 2 0 3 µm in diameter 14 15 They have been found in the pleural cavities of cattle suffering from pleuropneumonia These organisms are often called MLO mycoplasma like organisms or formerly PPLO pleuropneumonia like organisms 7 Important characteristics of Mycoplasma species Edit Cell wall is absent and plasma membrane forms the outer boundary of the cell Due to the absence of cell walls these organisms can change their shape and are pleomorphic Lack of nucleus and other membrane bound organelles Genetic material is a single DNA duplex and is naked Ribosomes are 70S type Possess a replicating disc at one end which assists replication process and also the separation of the genetic materials Heterotrophic nutrition Some live as saprophytes but the majority are parasites of plants and animals The parasitic nature is due to the inability of mycoplasmal bacteria to synthesise the required growth factor Cell and colony morphology Edit Due to the lack of a rigid cell wall Mycoplasma species like all Mollicutes can contort into a broad range of shapes from round to oblong They are pleomorphic and therefore cannot be identified as rods cocci or spirochetes 16 nbsp Colony morphology of Mycoplasma on Hayflick agarColonies show the typical fried egg appearance about 0 5 mm in diameter 15 Reproduction Edit In 1954 using phase contrast microscopy continual observations of live cells have shown that Mycoplasma species mycoplasmas formerly called pleuropneumonia like organisms PPLO now classified as Mollicutes and L form bacteria previously also called L phase bacteria do not proliferate by binary fission but by a uni or multi polar budding mechanism Microphotograph series of growing microcultures of different strains of PPLOs L form bacteria and as a control a Micrococcus species dividing by binary fission have been presented 15 Additionally electron microscopic studies have been performed 17 Phylogeny Edit Previously Mycoplasma species often commonly called mycoplasmas now classified as Mollicutes were sometimes considered stable L form bacteria or even viruses but phylogenetic analysis has identified them as bacteria that have lost their cell walls in the course of evolution 18 The genus Mycoplasma as originally described is highly paraphyletic as such it was redescibed by Gupta et al 2018 and its emendation was accompanied by the removal of 78 species 19 The currently accepted taxonomy is based on the List of Prokaryotic names with Standing in Nomenclature LPSN 20 and National Center for Biotechnology Information NCBI 21 The proposed taxonomy has been contentious and has not been widely adopted by mycoplasmologists 22 16S rRNA based LTP 01 2022 23 24 25 120 marker proteins based GTDB 07 RS207 26 27 28 M putrefaciens Tully et al 1974M cottewii Da Massa et al 1994M yeatsii Da Massa et al 1994M capri Edward 1953 Hudson Cottew amp Adler 1967 non El Nasri 1966M mycoides Borrel et al 1910 Freundt 1955M capricolum Tully et al 1974M capricolum capripneumoniae Leach Erno amp MacOwan 1993M leachii Manso Silvan et al 2009 M putrefaciensM yeatsiiM feriruminatoris Fischer et al 2015 29 M capriM mycoidesM capricolumM leachiiUnassigned species Ca M aoti Barker et al 2011 Ca M corallicola Neulinger et al 2009 Ca M erythrocervae Watanabe et al 2010 Ca M haematocervi corrig Watanabe et al 2010 Ca M haematodidelphidis corrig Messick et al 2002 Ca M haematomacacae corrig Maggi et al 2013 Ca M haematominiopteri corrig Millan et al 2015 Ca M haematonasua Collere et al 2021 Ca M haematoparvum Sykes et al 2005 Ca M haematovis corrig Hornok et al 2009 Ca M haemoalbiventris Pontarolo et al 2021 Ca M haemobovis Meli et al 2010 Ca M haemomeles Harasawa Orusa amp Giangaspero 2014 Ca M haemomuris Mayer 1921 Neimark et al 2002 Ca M haemoparvum Kenny et al 2004 Ca M haemosphiggurus Valente et al 2021 M hafezii Ziegler et al 2019 M incognitus Lo et al 1989 M insons May et al 2007 Ca M kahanei Neimark et al 2002 M miroungigenitalium Volokhov et al 2022 M miroungirhinis Volokhov et al 2022 M monodon Ghadersohi amp Owens 1998 M phocoenae Volokhov et al 2022 M phocoeninasale Volokhov et al 2022 M pneumophila Lyerova et al 2008 Ca M ravipulmonis Neimark Mitchelmore amp Leach 1998 M seminis Fischer et al 2021 M sphenisci Frasca et al 2005 M tauri Spergser et al 2021 M timone Greub amp Raoult 2001 Ca M tructae Sanchez et al 2020 Ca M turicense corrig Willi et al 2006 M volis Dillehay et al 1995 M vulturii Oaks et al 2004Laboratory contaminant EditMycoplasma species are often found in research laboratories as contaminants in cell culture Mycoplasmal cell culture contamination occurs due to contamination from individuals or contaminated cell culture medium ingredients 30 Mycoplasma cells are physically small less than 1 µm so are difficult to detect with a conventional microscope citation needed Mycoplasmae may induce cellular changes including chromosome aberrations changes in metabolism and cell growth Severe Mycoplasma infections may destroy a cell line Detection techniques include DNA probe enzyme immunoassays PCR plating on sensitive agar and staining with a DNA stain including DAPI or Hoechst 31 An estimated 11 to 15 of U S laboratory cell cultures are contaminated with mycoplasma A Corning study showed that half of U S scientists did not test for Mycoplasma contamination in their cell cultures The study also stated that in former Czechoslovakia 100 of cell cultures that were not routinely tested were contaminated while only 2 of those routinely tested were contaminated study p 6 Since the U S contamination rate was based on a study of companies that routinely checked for Mycoplasma the actual contamination rate may be higher European contamination rates are higher and that of other countries are higher still up to 80 of Japanese cell cultures 32 About 1 of published Gene Expression Omnibus data may have been compromised 33 34 Several antibiotic containing formulations of antimycoplasmal reagents have been developed over the years 35 Synthetic mycoplasma genome EditA chemically synthesized genome of a mycoplasmal cell based entirely on synthetic DNA which can self replicate has been referred to as Mycoplasma laboratorium 36 Pathogenicity EditThe P1 antigen is the primary virulence factor of mycoplasma P1 is a membrane associated protein that allows adhesion to epithelial cells The P1 receptor is also expressed on erythrocytes which can lead to autoantibody agglutination from mycobacteria infection 37 Several Mycoplasma species can cause disease including M pneumoniae which is an important cause of atypical pneumonia formerly known as walking pneumonia and M genitalium which has been associated with pelvic inflammatory diseases Mycoplasma infections in humans are associated with skin eruptions in 17 of cases 38 293 Sexually transmitted infections Edit Mycoplasma and Ureaplasma species are not part of the normal vaginal flora Some Mycoplasma species are spread through sexual contact 39 Infertility Edit Some Mycoplasma species have a negative effect on fertility 39 M hominis causes male sterility Genitals inflammation in humans citation needed Infant mortality Edit Low birth weight preterm infants are susceptible to Mycoplasma infections 8 Links to cancer Edit Several species of Mycoplasma are frequently detected in different types of cancer cells 40 41 42 These species are M fermentans 40 41 42 43 44 45 M genitalium 46 M hyorhinis 40 46 47 M penetrans 40 41 42 43 45 U urealyticum 48 The majority of these Mycoplasma species have shown a strong correlation to malignant transformation in mammalian cells in vitro Mycoplasma infection and host cell transformation Edit The presence of Mycoplasma was first reported in samples of cancer tissue in the 1960s 42 Since then several studies tried to find and prove the connection between Mycoplasma and cancer as well as how the bacterium might be involved in the formation of cancer 41 Several studies have shown that cells that are chronically infected with the bacteria go through a multistep transformation The changes caused by chronic mycoplasmal infections occur gradually and are both morphological and genetic 41 The first visual sign of infection is when the cells gradually shift from their normal form to sickle shaped They also become hyperchromatic due to an increase of DNA in the nucleus of the cells In later stages the cells lose the need for solid support to grow and proliferate 49 as well as the normal contact dependent inhibition cells 42 Possible intracellular mechanisms of mycoplasmal malignant transformation Edit Karyotypic changes related to mycoplasma infectionsCells infected with Mycoplasma for an extended period of time show significant chromosomal abnormalities These include the addition of chromosomes the loss of entire chromosomes partial loss of chromosomes and chromosomal translocation All of these genetic abnormalities may contribute to the process of malignant transformation Chromosomal translocation and extra chromosomes help create abnormally high activity of certain proto oncogenes which caused by these genetic abnormalities and include those encoding c myc HRAS 43 and vav 41 The activity of proto oncogenes is not the only cellular function that is affected tumour suppressor genes are affected by the chromosomal changes induced by mycoplasma as well Partial or complete loss of chromosomes causes the loss of important genes involved in the regulation of cell proliferation 42 Two genes whose activities are markedly decreased during chronic infections with mycoplasma are the Rb and the p53 tumour suppressor genes 41 Another possible mechanism of carcinogenesis is RAC1 activation by a small GTPase like protein fragment of Mycoplasma 50 A major feature that differentiates mycoplasmas from other carcinogenic pathogens is that the mycoplasmas do not cause the cellular changes by insertion of their own genetic material into the host cell 43 The exact mechanism by which the bacterium causes the changes is not yet known citation needed Partial reversibility of malignant transformationsThe malignant transformation induced by Mycoplasma species is also different from that caused by other pathogens in that the process is reversible The state of reversal is however only possible up to a certain point during the infection The window of time when reversibility is possible varies greatly it depends primarily on the Mycoplasma involved In the case of M fermentans the transformation is reversible until around week 11 of infection and starts to become irreversible between weeks 11 and 18 42 If the bacteria are killed using antibiotics 42 i e ciprofloxacin 41 or Clarithromycin 51 before the irreversible stage the infected cells should return to normal Connections to cancer in vivo and future research Edit Epidemiologic genetic and molecular studies suggest infection and inflammation initiate certain cancers including those of the prostate M genitalium and M hyorhinis induce malignant phenotype in benign human prostate cells BPH 1 that were not tumorigenic after 19 weeks of exposure 46 Types of cancer associated with Mycoplasma Edit Colon cancer In a study to understand the effects of Mycoplasma contamination on the quality of cultured human colon cancer cells a positive correlation was found between the number ofM hyorhinis cells present in the sample and the percentage of CD133 positive cells a glycoprotein with an unknown function 52 Gastric cancer Strong evidence indicates the infection ofM hyorhinis contributes to the development of cancer within the stomach and increases the likelihood of malignant cancer cell development 53 Lung cancer Studies on lung cancer have supported the belief that more than a coincidental positive correlation exists between the appearance ofMycoplasma strains in patients and the infection with tumorigenesis 54 Prostate cancer p37 a protein encoded for by M hyorhinis has been found to promote the invasiveness of prostate cancer cells The protein also causes the growth morphology and gene expression of the cells to change causing them to become a more aggressive phenotype 55 Renal cancer Patients with renal cell carcinoma RCC exhibited a significantly high amount of Mycoplasma sp compared with the healthy control group This suggests Mycoplasma may play a role in the development of RCC 51 See also EditInternational Organization for Mycoplasmology IOM Sexually transmitted disease Vaginal flora Vaginal infection Vaginal disease Vaginal health Phytoplasma Smallest organisms List of bacterial orders List of bacteria generaReferences Edit Ryan KJ Ray CG eds 2004 Sherris Medical Microbiology 4th ed McGraw Hill pp 409 12 ISBN 978 0 8385 8529 0 Richard L Sweet Ronald S Gibbs 1985 Infectious Diseases of the Female Genital Tract Lippincott Williams amp Wilkins 2009 ISBN 9780683080384 a b c Larsen Bryan Hwang Joseph 2010 Mycoplasma Ureaplasma and Adverse Pregnancy Outcomes A Fresh Look Infectious Diseases in Obstetrics and Gynecology 2010 1 7 doi 10 1155 2010 521921 ISSN 1064 7449 PMC 2913664 PMID 20706675 Frank B 1889 Ueber der Pilzsymbiose der Leguminosen On fungal symbioses of legumes Berichte der Deutschen Botanischen Gesellschaft in German 7 332 346 From p 335 Die durch die Infection entstandene veranderte Art des Plasmas in den Rindenzellen will ich da sie offenbar durch die Vermischmung mit einem pilzartigen Wesen entstanden ist als Mycoplasma bezeichnen I want to designate as mycoplasma the altered type of plasma in the cortex cells which arose by infection since it i e the altered type of plasma obviously arose by mixing with a fungal organism Krass CJ Gardner MW January 1973 Etymology of the Term Mycoplasma Int J Syst Evol Microbiol 23 1 62 64 doi 10 1099 00207713 23 1 62 Browning GF Citti C eds 2014 Mollicutes Molecular Biology and Pathogenesis 1st ed Caister Academic Press pp 1 14 ISBN 978 1 908230 30 0 a b Edward DG Freundt EA February 1956 The classification and nomenclature of organisms of the pleuropneumonia group PDF J Gen Microbiol 14 1 197 207 doi 10 1099 00221287 14 1 197 PMID 13306904 a b Waites K B Katz B Schelonka R L 2005 Mycoplasmas and Ureaplasmas as Neonatal Pathogens Clinical Microbiology Reviews 18 4 757 789 CiteSeerX 10 1 1 336 7047 doi 10 1128 CMR 18 4 757 789 2005 ISSN 0893 8512 PMC 1265909 PMID 16223956 Wiesenfeld Harold C Manhart Lisa E 15 July 2017 Mycoplasma genitalium in Women Current Knowledge and Research Priorities for This Recently Emerged Pathogen The Journal of Infectious Diseases 216 suppl 2 S389 S395 doi 10 1093 infdis jix198 ISSN 1537 6613 PMC 5853983 PMID 28838078 Lis R Rowhani Rahbar A Manhart L E 2015 Mycoplasma genitalium Infection and Female Reproductive Tract Disease A Meta Analysis Clinical Infectious Diseases 61 3 418 426 doi 10 1093 cid civ312 ISSN 1058 4838 PMID 25900174 Mitja Oriol Asiedu Kingsley Mabey David 13 February 2013 2013 Yaws Seminar PDF Lancet The Lancet 381 9868 763 73 doi 10 1016 S0140 6736 12 62130 8 PMID 23415015 S2CID 208791874 Retrieved 28 March 2020 via World Health Organization Maggi Ricardo G Compton Sarah M Trull Chelsea L Mascarelli Patricia E Mozayeni B Robert Breitschwerdt Edward B 1 October 2013 Infection with Hemotropic Mycoplasma Species in Patients with or without Extensive Arthropod or Animal Contact Journal of Clinical Microbiology 51 10 3237 3241 doi 10 1128 JCM 01125 13 PMC 3811635 PMID 23863574 Seward Emily Kelly Steve 2016 Dietary nitrogen alters codon bias and genome composition in parasitic microorganisms Genome Biology 17 226 3 15 doi 10 1186 s13059 016 1087 9 PMC 5109750 PMID 27842572 Mycoplasma The Lecturio Medical Concept Library Retrieved 8 July 2021 a b c Kandler Gertraud Kandler Otto 1954 Article in English available Untersuchungen uber die Morphologie und die Vermehrung der pleuropneumonie ahnlichen Organismen und der L Phase der Bakterien I Lichtmikroskopische Untersuchungen Studies on morphology and multiplication of pleuropneumonia like organisms and on bacterial L phase I Light microscopy now mycoplasmas and L form bacteria PDF Archiv fur Mikrobiologie in German 21 2 178 201 doi 10 1007 BF01816378 PMID 14350641 S2CID 21257985 Gladwin MD Mark Trattler MD William Mahan MD C Scott 2014 Clinical Microbiology made ridiculously simple Miami Fl MedMaster Inc p 156 ISBN 978 1935660156 Kandler Gertraud Kandler Otto Huber Oskar 1954 Article in English available Untersuchungen uber die Morphologie und die Vermehrung der pleuropneumonie ahnlichen Organismen und der L Phase der Bakterien II Elektronenmikroskopische Untersuchungen Studies on morphology and multiplication of pleuropneumonia like organisms and on bacterial L phase II Electron microscopy now mycoplasmas and L form bacteria PDF Archiv fur Mikrobiologie in German 21 2 202 216 doi 10 1007 BF01816379 PMID 14350642 S2CID 45546531 Woese Carl R Maniloff J Zablen L B 1980 Phylogenetic analysis of the mycoplasmas PDF Proceedings of the National Academy of Sciences of the United States of America 77 1 494 498 Bibcode 1980PNAS 77 494W doi 10 1073 pnas 77 1 494 PMID 692864 Gupta R S Sawnani S Adeolu M Alnajar S Oren A 2018 Phylogenetic framework for the phylum Tenericutes based on genome sequence data proposal for the creation of a new order Mycoplasmoidales ord nov containing two new families Mycoplasmoidaceae fam nov and Metamycoplasmataceae fam nov harbouring Eperythrozoon Ureaplasma and five novel genera Antonie van Leeuwenhoek 111 9 1583 1630 doi 10 1007 s10482 018 1047 3 PMID 29556819 S2CID 254226604 A C Parte et al Mycoplasma List of Prokaryotic names with Standing in Nomenclature LPSN Retrieved 9 September 2022 Sayers et al Mycoplasma National Center for Biotechnology Information NCBI taxonomy database Retrieved 9 September 2022 Balish Mitchell Bertaccini A Blanchard A Brown D Browning G Chalker V Frey J Gasparich G Hoelzle L Knight T Knox C Chih Horng K Manso Silvan L May M Pollack J D Ramirez A Spergser J Taylor Robinson D Volokhov D Zhao Y 2019 Recommended rejection of the names Malacoplasma gen nov Mesomycoplasma gen nov Metamycoplasma gen nov Metamycoplasmataceae fam nov Mycoplasmoidaceae fam nov Mycoplasmoidales ord nov Mycoplasmoides gen nov Mycoplasmopsis gen nov Gupta Sawnani Adeolu Alnajar and Oren 2018 and all proposed species comb nov placed therein International Journal of Systematic and Evolutionary Microbiology 69 11 3650 3653 doi 10 1099 ijsem 0 003632 PMID 31385780 The LTP Retrieved 23 February 2022 LTP all tree in newick format Retrieved 23 February 2022 LTP 01 2022 Release Notes PDF Retrieved 23 February 2022 GTDB release 07 RS207 Genome Taxonomy Database Retrieved 20 June 2022 bac120 r207 sp labels Genome Taxonomy Database Retrieved 20 June 2022 Taxon History Genome Taxonomy Database Retrieved 20 June 2022 LPSN lpsn dsmz de Drexler HG Uphoff CC 2002 Mycoplasma contamination of cell cultures Incidence sources effects detection elimination prevention Cytotechnology 39 2 75 90 doi 10 1023 A 1022913015916 PMC 3463982 PMID 19003295 Razin S 2001 Mycoplasmas The University of Texas Medical Branch at Galveston ISBN 9780963117212 PMID 21413254 Retrieved 8 July 2021 via National Center for Biotechnology Information U S National Library of Medicine John Ryan 2008 Understanding and Managing Cell Culture Contamination PDF Corning Incorporated p 24 Archived from the original PDF on 8 July 2011 Retrieved 4 August 2010 Aldecoa Otalora E Langdon W Cunningham P Arno MJ December 2009 Unexpected presence of mycoplasma probes on human microarrays BioTechniques 47 6 1013 5 doi 10 2144 000113271 PMID 20047202 Link Archived 30 March 2012 at the Wayback Machine into RNAnet showing contamination of GEO Press plot and drag blue crosshairs to expose links to description of experiments on human RNA samples BM Cyclin Archived 2 February 2013 at archive today by Roche MRA by ICN Plasmocin by Invivogen and more recently De Plasma Archived 9 April 2013 at the Wayback Machine by TOKU E Gibson DG Glass JI Lartigue C Noskov VN Chuang RY Algire MA Benders GA Montague MG Ma L Moodie MM Merryman C Vashee S Krishnakumar R Assad Garcia N Andrews Pfannkoch C Denisova EA Young L Qi ZQ Segall Shapiro TH Calvey CH Parmar PP Hutchison CA Smith HO Venter JC July 2010 Creation of a bacterial cell controlled by a chemically synthesized genome Science 329 5987 52 6 Bibcode 2010Sci 329 52G doi 10 1126 science 1190719 PMID 20488990 Parija Subhash Chandra 2014 Textbook of Microbiology amp Immunology Elsevier Health Sciences ISBN 9788131236246 James William D Berger Timothy G et al 2006 Andrews Diseases of the Skin clinical Dermatology Saunders Elsevier ISBN 978 0 7216 2921 6 a b Ljubin Sternak Suncanica Mestrovic Tomislav 2014 Review Chlamydia trachonmatis and Genital Mycoplasmias Pathogens with an Impact on Human Reproductive Health Journal of Pathogens 2014 183167 183167 doi 10 1155 2014 183167 PMC 4295611 PMID 25614838 a b c d Huang S Li JY Wu J Meng L Shou CC April 2001 Mycoplasma infections and different human carcinomas World Journal of Gastroenterology 7 2 266 269 doi 10 3748 wjg v7 i2 266 PMC 4723534 PMID 11819772 a b c d e f g h Sinkovics JG February 2012 Molecular biology of oncogenic inflammatory processes I Non oncogenic and oncogenic pathogens intrinsic inflammatory reactions without pathogens and microRNA DNA interactions Review International Journal of Oncology 40 2 305 349 doi 10 3892 ijo 2011 1248 PMID 22076306 a b c d e f g h Tsai S Wear DJ Shih JW Lo SC October 1995 Mycoplasmas and oncogenesis Persistent infection and multistage malignant transformation Proceedings of the National Academy of Sciences of the United States of America 92 22 10197 10201 Bibcode 1995PNAS 9210197T doi 10 1073 pnas 92 22 10197 PMC 40763 PMID 7479753 a b c d Cimolai N August 2001 Do mycoplasmas cause human cancer Canadian Journal of Microbiology 47 8 691 697 doi 10 1139 w01 053 PMID 11575494 Jiang S Zhang S Langenfeld J Lo SC Rogers MB May 2008 Mycoplasma infection transforms normal lung cells and induces bone morphogenetic protein 2 expression by post transcriptional mechanisms Journal of Cellular Biochemistry 104 2 580 594 doi 10 1002 jcb 21647 PMID 18059017 S2CID 23871175 a b Zhang S Tsai S Lo SC May 2006 Alteration of gene expression profiles during mycoplasma induced malignant cell transformation BMC Cancer 6 116 doi 10 1186 1471 2407 6 116 PMC 1559712 PMID 16674811 a b c Namiki K Goodison S Porvasnik S Allan RW Iczkowski KA Urbanek C Reyes L Sakamoto N Rosser CJ September 2009 Persistent exposure to mycoplasma induces malignant transformation of human prostate cells PLOS ONE 4 9 e6872 Bibcode 2009PLoSO 4 6872N doi 10 1371 journal pone 0006872 PMC 2730529 PMID 19721714 Chan PJ Seraj IM Kalugdan TH King A November 1996 Prevalence of mycoplasma conserved DNA in malignant ovarian cancer detected using sensitive PCR ELISA Gynecologic Oncology 63 2 258 260 doi 10 1006 gyno 1996 0316 PMID 8910637 Xiaolei C Taot H Zongli S Hongying Y 2014 The role of ureaplasma urealyticum infection in cervical intraepithelial neoplasia and cervical cancer European Journal of Gynaecological Oncology 35 5 571 5 PMID 25423707 Lopes B R P Ribeiro A G Silva T F Barbosa L V Jesus T I Matsuda B K Costa M F Toledo K A February 2021 Diagnosis and treatment of HEp 2 cells contaminated with mycoplasma Brazilian Journal of Biology 81 1 37 43 doi 10 1590 1519 6984 215721 ISSN 1678 4375 PMID 32321065 Hu X Yu J Zhou X Li Z Xia Y Luo Z Wu Y January 2014 A small GTPase like protein fragment of Mycoplasma promotes tumor cell migration and proliferation in vitro via interaction with Rac1 and Stat3 Mol Med Rep 9 1 173 179 doi 10 3892 mmr 2013 1766 PMID 24172987 a b Pehlivan M Pehlivan S Onay H Koyuncuoglu M Kirkali Z February 2005 Can mycoplasma mediated oncogenesis be responsible for formation of conventional renal cell carcinoma Urology 65 2 411 414 doi 10 1016 j urology 2004 10 015 PMID 15708077 Mariotti E Gemei M Mirabelli P D Alessio F Di Noto R Fortunato G Del Vecchio L March 2010 The percentage of CD133 cells in human colorectal cancer cell lines is influenced by Mycoplasma hyorhinis infection BMC Cancer 10 120 125 doi 10 1186 1471 2407 10 120 PMC 2854114 PMID 20353562 Yang H Qu L Ma H Chen L Liu W Liu C Meng L Wu J Shou C November 2010 Mycoplasma hyorhinis infection in gastric carcinoma and its effects on the malignant phenotypes of gastric cancer cells BMC Gastroenterology 10 132 140 doi 10 1186 1471 230X 10 132 PMC 2993648 PMID 21062494 Apostolou P Tsantsaridou A Papasotiriou I Toloudi M Chatziioannou M Giamouzis G October 2011 Bacterial and fungal microflora in surgically removed lung cancer samples Journal of Cardiothoracic Surgery 6 137 doi 10 1186 1749 8090 6 137 PMC 3212932 PMID 21999143 Urbanek C Goodison S Chang M Porvasnik S Sakamoto N Li CZ Boehlein SK Rosser CJ June 2011 Detection of antibodies directed at M hyorhinis p37 in the serum of men with newly diagnosed prostate cancer BMC Cancer 11 1 233 238 doi 10 1186 1471 2407 11 233 PMC 3129326 PMID 21663671 External links EditUreaplasma Infection eMedicine Infectious Diseases Retrieved from https en wikipedia org w index php title Mycoplasma amp oldid 1174086486, wikipedia, wiki, book, books, library,

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