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Mitochondrial disease

April 13, 2024

Mitochondrial disease is a group of disorders caused by mitochondrial dysfunction. Mitochondria are the organelles that generate energy for the cell and are found in every cell of the human body except red blood cells. They convert the energy of food molecules into the ATP that powers most cell functions.

Mitochondrial disease
Other namesMitochondrial cytopathy; mitochondriopathy (MCP)
Micrograph showing ragged red fibers, a finding seen in various types of mitochondrial diseases. Muscle biopsy. Gomori trichrome stain.
SpecialtyMedical genetics

Mitochondrial diseases take on unique characteristics both because of the way the diseases are often inherited and because mitochondria are so critical to cell function. A subclass of these diseases that have neuromuscular symptoms are known as mitochondrial myopathies.

Types edit

Mitochondrial disease can manifest in many different ways[1] whether in children[2] or adults.[3] Examples of mitochondrial diseases include:

Conditions such as Friedreich's ataxia can affect the mitochondria but are not associated with mitochondrial proteins.

Presentation edit

Associated conditions edit

Acquired conditions in which mitochondrial dysfunction has been involved are:

The body, and each mutation, is modulated by other genome variants; the mutation that in one individual may cause liver disease might in another person cause a brain disorder. The severity of the specific defect may also be great or small. Some defects include exercise intolerance. Defects often affect the operation of the mitochondria and multiple tissues more severely, leading to multi-system diseases.[14]

It has also been reported that drug tolerant cancer cells have an increased number and size of mitochondria, which suggested an increase in mitochondrial biogenesis.[15] Interestingly, a recent study in Nature Nanotechnology has reported that cancer cells can hijack the mitochondria from immune cells via physical tunneling nanotubes.[16]

As a rule, mitochondrial diseases are worse when the defective mitochondria are present in the muscles, cerebrum, or nerves,[17] because these cells use more energy than most other cells in the body.

Although mitochondrial diseases vary greatly in presentation from person to person, several major clinical categories of these conditions have been defined, based on the most common phenotypic features, symptoms, and signs associated with the particular mutations that tend to cause them.[citation needed]

An outstanding question and area of research is whether ATP depletion or reactive oxygen species are in fact responsible for the observed phenotypic consequences.[citation needed]

Cerebellar atrophy or hypoplasia has sometimes been reported to be associated.[18]

Causes edit

Mitochondrial disorders may be caused by mutations (acquired or inherited), in mitochondrial DNA (mtDNA), or in nuclear genes that code for mitochondrial components. They may also be the result of acquired mitochondrial dysfunction due to adverse effects of drugs, infections, or other environmental causes.[19]

 
Example of a pedigree for a genetic trait inherited by mitochondrial DNA in animals and humans. Offspring of the males with the trait don't inherit the trait. Offspring of the females with the trait always inherit the trait (independently from their own gender).

Nuclear DNA has two copies per cell (except for sperm and egg cells), one copy being inherited from the father and the other from the mother. Mitochondrial DNA, however, is inherited from the mother only (with some exceptions) and each mitochondrion typically contains between 2 and 10 mtDNA copies. During cell division the mitochondria segregate randomly between the two new cells. Those mitochondria make more copies, normally reaching 500 mitochondria per cell. As mtDNA is copied when mitochondria proliferate, they can accumulate random mutations, a phenomenon called heteroplasmy. If only a few of the mtDNA copies inherited from the mother are defective, mitochondrial division may cause most of the defective copies to end up in just one of the new mitochondria (for more detailed inheritance patterns, see human mitochondrial genetics). Mitochondrial disease may become clinically apparent once the number of affected mitochondria reaches a certain level; this phenomenon is called "threshold expression".

Mitochondria possess many of the same DNA repair pathways as nuclei do—but not all of them;[20] therefore, mutations occur more frequently in mitochondrial DNA than in nuclear DNA (see Mutation rate). This means that mitochondrial DNA disorders may occur spontaneously and relatively often. Defects in enzymes that control mitochondrial DNA replication (all of which are encoded for by genes in the nuclear DNA) may also cause mitochondrial DNA mutations.

Most mitochondrial function and biogenesis is controlled by nuclear DNA. Human mitochondrial DNA encodes 13 proteins of the respiratory chain, while most of the estimated 1,500 proteins and components targeted to mitochondria are nuclear-encoded. Defects in nuclear-encoded mitochondrial genes are associated with hundreds of clinical disease phenotypes including anemia, dementia, hypertension, lymphoma, retinopathy, seizures, and neurodevelopmental disorders.[21]

A study by Yale University researchers (published in the February 12, 2004, issue of the New England Journal of Medicine) explored the role of mitochondria in insulin resistance among the offspring of patients with type 2 diabetes.[22] Other studies have shown that the mechanism may involve the interruption of the mitochondrial signaling process in body cells (intramyocellular lipids). A study conducted at the Pennington Biomedical Research Center in Baton Rouge, Louisiana[23] showed that this, in turn, partially disables the genes that produce mitochondria.

Mechanisms edit

The effective overall energy unit for the available body energy is referred to as the daily glycogen generation capacity,[24][25][26] and is used to compare the mitochondrial output of affected or chronically glycogen-depleted individuals to healthy individuals. This value is slow to change in a given individual, as it takes between 18 and 24 months to complete a full cycle.[25]

The glycogen generation capacity is entirely dependent on, and determined by, the operating levels of the mitochondria in all of the cells of the human body;[27] however, the relation between the energy generated by the mitochondria and the glycogen capacity is very loose and is mediated by many biochemical pathways.[24] The energy output of full healthy mitochondrial function can be predicted exactly by a complicated theoretical argument, but this argument is not straightforward, as most energy is consumed by the brain and is not easily measurable.

Diagnosis edit

Mitochondrial diseases are usually detected by analysing muscle samples, where the presence of these organelles is higher. The most common tests for the detection of these diseases are:

  1. Southern blot to detect large deletions or duplications
  2. Polymerase chain reaction and specific mutation testing[28]
  3. Sequencing

Treatments edit

Although research is ongoing, treatment options are currently limited; vitamins are frequently prescribed, though the evidence for their effectiveness is limited.[29]Pyruvate has been proposed in 2007 as a treatment option.[30] N-acetyl cysteine reverses many models of mitochondrial dysfunction.[31] In the case of mood disorders, specifically bipolar disorder, it is hypothesized that N-acetyl-cysteine (NAC), acetyl-L-carnitine (ALCAR), S-adenosylmethionine (SAMe), coenzyme Q10 (CoQ10), alpha-lipoic acid (ALA), creatine monohydrate (CM), and melatonin could be potential treatment options.[32]

Gene therapy prior to conception edit

Mitochondrial replacement therapy (MRT), where the nuclear DNA is transferred to another healthy egg cell leaving the defective mitochondrial DNA behind, is an IVF treatment procedure.[33] Using a similar pronuclear transfer technique, researchers at Newcastle University led by Douglass Turnbull successfully transplanted healthy DNA in human eggs from women with mitochondrial disease into the eggs of women donors who were unaffected.[34][35] In such cases, ethical questions have been raised regarding biological motherhood, since the child receives genes and gene regulatory molecules from two different women. Using genetic engineering in attempts to produce babies free of mitochondrial disease is controversial in some circles and raises important ethical issues.[36][37] A male baby was born in Mexico in 2016 from a mother with Leigh syndrome using MRT.[38]

In September 2012 a public consultation was launched in the UK to explore the ethical issues involved.[39] Human genetic engineering was used on a small scale to allow infertile women with genetic defects in their mitochondria to have children.[40] In June 2013, the United Kingdom government agreed to develop legislation that would legalize the 'three-person IVF' procedure as a treatment to fix or eliminate mitochondrial diseases that are passed on from mother to child. The procedure could be offered from 29 October 2015 once regulations had been established.[41][42][43]Embryonic mitochondrial transplant and protofection have been proposed as a possible treatment for inherited mitochondrial disease, and allotopic expression of mitochondrial proteins as a radical treatment for mtDNA mutation load.

In June 2018 Australian Senate's Senate Community Affairs References Committee recommended a move towards legalising Mitochondrial replacement therapy (MRT). Research and clinical applications of MRT were overseen by laws made by federal and state governments. State laws were, for the most part, consistent with federal law. In all states, legislation prohibited the use of MRT techniques in the clinic, and except for Western Australia, research on a limited range of MRT was permissible up to day 14 of embryo development, subject to a license being granted. In 2010, the Hon. Mark Butler MP, then Federal Minister for Mental Health and Ageing, had appointed an independent committee to review the two relevant acts: the Prohibition of Human Cloning for Reproduction Act 2002 and the Research Involving Human Embryos Act 2002. The committee's report, released in July 2011, recommended the existing legislation remain unchanged

Currently, human clinical trials are underway at GenSight Biologics (ClinicalTrials.gov # NCT02064569) and the University of Miami (ClinicalTrials.gov # NCT02161380) to examine the safety and efficacy of mitochondrial gene therapy in Leber's hereditary optic neuropathy.

Epidemiology edit

About 1 in 4,000 children in the United States will develop mitochondrial disease by the age of 10 years. Up to 4,000 children per year in the US are born with a type of mitochondrial disease.[44] Because mitochondrial disorders contain many variations and subsets, some particular mitochondrial disorders are very rare.

The average number of births per year among women at risk for transmitting mtDNA disease is estimated to approximately 150 in the United Kingdom and 800 in the United States.[45]

History edit

The first pathogenic mutation in mitochondrial DNA was identified in 1988; from that time to 2016, around 275 other disease-causing mutations were identified.[46]

Notable cases edit

Notable people with mitochondrial disease include:

References edit

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External links edit

 
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April 13, 2024
mitochondrial, disease, this, article, needs, additional, citations, verification, please, help, improve, this, article, adding, citations, reliable, sources, unsourced, material, challenged, removed, find, sources, news, newspapers, books, scholar, jstor, feb. This article needs additional citations for verification Please help improve this article by adding citations to reliable sources Unsourced material may be challenged and removed Find sources Mitochondrial disease news newspapers books scholar JSTOR February 2014 Learn how and when to remove this template message Mitochondrial disease is a group of disorders caused by mitochondrial dysfunction Mitochondria are the organelles that generate energy for the cell and are found in every cell of the human body except red blood cells They convert the energy of food molecules into the ATP that powers most cell functions Mitochondrial diseaseOther namesMitochondrial cytopathy mitochondriopathy MCP Micrograph showing ragged red fibers a finding seen in various types of mitochondrial diseases Muscle biopsy Gomori trichrome stain SpecialtyMedical geneticsMitochondrial diseases take on unique characteristics both because of the way the diseases are often inherited and because mitochondria are so critical to cell function A subclass of these diseases that have neuromuscular symptoms are known as mitochondrial myopathies Contents 1 Types 2 Presentation 2 1 Associated conditions 3 Causes 4 Mechanisms 5 Diagnosis 6 Treatments 6 1 Gene therapy prior to conception 7 Epidemiology 8 History 9 Notable cases 10 References 11 External linksTypes editThis article needs additional citations for verification Please help improve this article by adding citations to reliable sources Unsourced material may be challenged and removed Find sources Mitochondrial disease news newspapers books scholar JSTOR November 2023 Learn how and when to remove this template message Mitochondrial disease can manifest in many different ways 1 whether in children 2 or adults 3 Examples of mitochondrial diseases include Mitochondrial myopathy 2 3 Maternally inherited diabetes mellitus and deafness MIDD 4 While diabetes mellitus and deafness can be found together for other reasons at an early age this combination can be due to mitochondrial disease as may occur in Kearns Sayre syndrome and Pearson syndrome 2 Leber s hereditary optic neuropathy LHON 3 LHON is an eye disorder characterized by progressive loss of central vision due to degeneration of the optic nerves and retina apparently affecting between 1 in 30 000 and 1 in 50 000 people 5 visual loss typically begins in young adulthood 2 Leigh syndrome subacute necrotizing encephalomyelopathy 6 after normal development the disease usually begins late in the first year of life although onset may occur in adulthood a rapid decline in function occurs and is marked by seizures altered states of consciousness dementia ventilatory failure Neuropathy ataxia retinitis pigmentosa and ptosis NARP progressive symptoms as described in the acronym dementia Myoneurogenic gastrointestinal encephalopathy MNGIE gastrointestinal pseudo obstruction neuropathy MERRF syndrome progressive myoclonic epilepsy Ragged Red Fibers are clumps of diseased mitochondria that accumulate in the subsarcolemmal region of the muscle fiber and appear when muscle is stained with modified Gomori trichrome stain short stature hearing loss lactic acidosis exercise intolerance MELAS syndrome mitochondrial encephalopathy lactic acidosis and stroke like episodes Mitochondrial DNA depletion syndromeConditions such as Friedreich s ataxia can affect the mitochondria but are not associated with mitochondrial proteins Presentation editAssociated conditions edit Acquired conditions in which mitochondrial dysfunction has been involved are diabetes Huntington s disease cancer Alzheimer s disease 7 Parkinson s disease bipolar disorder 8 9 10 schizophrenia aging and senescence 11 anxiety disorders 12 cardiovascular disease sarcopenia chronic fatigue syndrome 9 ALS 13 The body and each mutation is modulated by other genome variants the mutation that in one individual may cause liver disease might in another person cause a brain disorder The severity of the specific defect may also be great or small Some defects include exercise intolerance Defects often affect the operation of the mitochondria and multiple tissues more severely leading to multi system diseases 14 It has also been reported that drug tolerant cancer cells have an increased number and size of mitochondria which suggested an increase in mitochondrial biogenesis 15 Interestingly a recent study in Nature Nanotechnology has reported that cancer cells can hijack the mitochondria from immune cells via physical tunneling nanotubes 16 As a rule mitochondrial diseases are worse when the defective mitochondria are present in the muscles cerebrum or nerves 17 because these cells use more energy than most other cells in the body Although mitochondrial diseases vary greatly in presentation from person to person several major clinical categories of these conditions have been defined based on the most common phenotypic features symptoms and signs associated with the particular mutations that tend to cause them citation needed An outstanding question and area of research is whether ATP depletion or reactive oxygen species are in fact responsible for the observed phenotypic consequences citation needed Cerebellar atrophy or hypoplasia has sometimes been reported to be associated 18 Causes editMitochondrial disorders may be caused by mutations acquired or inherited in mitochondrial DNA mtDNA or in nuclear genes that code for mitochondrial components They may also be the result of acquired mitochondrial dysfunction due to adverse effects of drugs infections or other environmental causes 19 nbsp Example of a pedigree for a genetic trait inherited by mitochondrial DNA in animals and humans Offspring of the males with the trait don t inherit the trait Offspring of the females with the trait always inherit the trait independently from their own gender Nuclear DNA has two copies per cell except for sperm and egg cells one copy being inherited from the father and the other from the mother Mitochondrial DNA however is inherited from the mother only with some exceptions and each mitochondrion typically contains between 2 and 10 mtDNA copies During cell division the mitochondria segregate randomly between the two new cells Those mitochondria make more copies normally reaching 500 mitochondria per cell As mtDNA is copied when mitochondria proliferate they can accumulate random mutations a phenomenon called heteroplasmy If only a few of the mtDNA copies inherited from the mother are defective mitochondrial division may cause most of the defective copies to end up in just one of the new mitochondria for more detailed inheritance patterns see human mitochondrial genetics Mitochondrial disease may become clinically apparent once the number of affected mitochondria reaches a certain level this phenomenon is called threshold expression Mitochondria possess many of the same DNA repair pathways as nuclei do but not all of them 20 therefore mutations occur more frequently in mitochondrial DNA than in nuclear DNA see Mutation rate This means that mitochondrial DNA disorders may occur spontaneously and relatively often Defects in enzymes that control mitochondrial DNA replication all of which are encoded for by genes in the nuclear DNA may also cause mitochondrial DNA mutations Most mitochondrial function and biogenesis is controlled by nuclear DNA Human mitochondrial DNA encodes 13 proteins of the respiratory chain while most of the estimated 1 500 proteins and components targeted to mitochondria are nuclear encoded Defects in nuclear encoded mitochondrial genes are associated with hundreds of clinical disease phenotypes including anemia dementia hypertension lymphoma retinopathy seizures and neurodevelopmental disorders 21 A study by Yale University researchers published in the February 12 2004 issue of the New England Journal of Medicine explored the role of mitochondria in insulin resistance among the offspring of patients with type 2 diabetes 22 Other studies have shown that the mechanism may involve the interruption of the mitochondrial signaling process in body cells intramyocellular lipids A study conducted at the Pennington Biomedical Research Center in Baton Rouge Louisiana 23 showed that this in turn partially disables the genes that produce mitochondria Mechanisms editThe effective overall energy unit for the available body energy is referred to as the daily glycogen generation capacity 24 25 26 and is used to compare the mitochondrial output of affected or chronically glycogen depleted individuals to healthy individuals This value is slow to change in a given individual as it takes between 18 and 24 months to complete a full cycle 25 The glycogen generation capacity is entirely dependent on and determined by the operating levels of the mitochondria in all of the cells of the human body 27 however the relation between the energy generated by the mitochondria and the glycogen capacity is very loose and is mediated by many biochemical pathways 24 The energy output of full healthy mitochondrial function can be predicted exactly by a complicated theoretical argument but this argument is not straightforward as most energy is consumed by the brain and is not easily measurable Diagnosis editMitochondrial diseases are usually detected by analysing muscle samples where the presence of these organelles is higher The most common tests for the detection of these diseases are Southern blot to detect large deletions or duplications Polymerase chain reaction and specific mutation testing 28 SequencingTreatments editAlthough research is ongoing treatment options are currently limited vitamins are frequently prescribed though the evidence for their effectiveness is limited 29 Pyruvate has been proposed in 2007 as a treatment option 30 N acetyl cysteine reverses many models of mitochondrial dysfunction 31 In the case of mood disorders specifically bipolar disorder it is hypothesized that N acetyl cysteine NAC acetyl L carnitine ALCAR S adenosylmethionine SAMe coenzyme Q10 CoQ10 alpha lipoic acid ALA creatine monohydrate CM and melatonin could be potential treatment options 32 Gene therapy prior to conception edit Mitochondrial replacement therapy MRT where the nuclear DNA is transferred to another healthy egg cell leaving the defective mitochondrial DNA behind is an IVF treatment procedure 33 Using a similar pronuclear transfer technique researchers at Newcastle University led by Douglass Turnbull successfully transplanted healthy DNA in human eggs from women with mitochondrial disease into the eggs of women donors who were unaffected 34 35 In such cases ethical questions have been raised regarding biological motherhood since the child receives genes and gene regulatory molecules from two different women Using genetic engineering in attempts to produce babies free of mitochondrial disease is controversial in some circles and raises important ethical issues 36 37 A male baby was born in Mexico in 2016 from a mother with Leigh syndrome using MRT 38 In September 2012 a public consultation was launched in the UK to explore the ethical issues involved 39 Human genetic engineering was used on a small scale to allow infertile women with genetic defects in their mitochondria to have children 40 In June 2013 the United Kingdom government agreed to develop legislation that would legalize the three person IVF procedure as a treatment to fix or eliminate mitochondrial diseases that are passed on from mother to child The procedure could be offered from 29 October 2015 once regulations had been established 41 42 43 Embryonic mitochondrial transplant and protofection have been proposed as a possible treatment for inherited mitochondrial disease and allotopic expression of mitochondrial proteins as a radical treatment for mtDNA mutation load In June 2018 Australian Senate s Senate Community Affairs References Committee recommended a move towards legalising Mitochondrial replacement therapy MRT Research and clinical applications of MRT were overseen by laws made by federal and state governments State laws were for the most part consistent with federal law In all states legislation prohibited the use of MRT techniques in the clinic and except for Western Australia research on a limited range of MRT was permissible up to day 14 of embryo development subject to a license being granted In 2010 the Hon Mark Butler MP then Federal Minister for Mental Health and Ageing had appointed an independent committee to review the two relevant acts the Prohibition of Human Cloning for Reproduction Act 2002 and the Research Involving Human Embryos Act 2002 The committee s report released in July 2011 recommended the existing legislation remain unchangedCurrently human clinical trials are underway at GenSight Biologics ClinicalTrials gov NCT02064569 and the University of Miami ClinicalTrials gov NCT02161380 to examine the safety and efficacy of mitochondrial gene therapy in Leber s hereditary optic neuropathy Epidemiology editAbout 1 in 4 000 children in the United States will develop mitochondrial disease by the age of 10 years Up to 4 000 children per year in the US are born with a type of mitochondrial disease 44 Because mitochondrial disorders contain many variations and subsets some particular mitochondrial disorders are very rare The average number of births per year among women at risk for transmitting mtDNA disease is estimated to approximately 150 in the United Kingdom and 800 in the United States 45 History editThe first pathogenic mutation in mitochondrial DNA was identified in 1988 from that time to 2016 around 275 other disease causing mutations were identified 46 Notable cases editNotable people with mitochondrial disease include Mattie Stepanek a poet peace advocate and motivational speaker who had dysautonomic mitochondrial myopathy and who died at age 13 47 Rocco Baldelli a coach and former center fielder in Major League Baseball who had to retire from active play at age 29 due to mitochondrial channelopathy Charlie Gard a British boy who had mitochondrial DNA depletion syndrome decisions about his care were taken to various law courts Charles Darwin a nineteenth century naturalist who suffered from a disabling illness is speculated to have MELAS syndrome 48 References edit Mitochondrial Diseases medlineplus gov Retrieved 2023 03 15 a b c d Rahman S 2020 Mitochondrial disease in children Journal of Internal Medicine 287 6 609 633 doi 10 1111 joim 13054 PMID 32176382 a b c La Morgia C Maresca A Caporali L Valentino ML Carelli V 2020 Mitochondrial diseases in adults Journal of Internal Medicine 287 6 592 608 doi 10 1111 joim 13064 PMID 32463135 Tsang SH Aycinena AR Sharma T 2018 Mitochondrial disorder maternally inherited diabetes and deafness Atlas of Inherited Retinal Diseases Advances in Experimental Medicine and Biology Vol 1085 pp 163 165 doi 10 1007 978 3 319 95046 4 31 ISBN 978 3 319 95045 7 PMID 30578504 Shamsnajafabadi H MacLaren RE Cehajic Kapetanovic J 2023 Current and future landscape in genetic therapies for Leber hereditary optic neuropathy Cells 12 15 2013 doi 10 3390 cells12152013 PMC 10416882 PMID 37566092 Rahman S 2023 Leigh syndrome Mitochondrial Diseases Handbook of Clinical Neurology Vol 194 pp 43 63 doi 10 1016 B978 0 12 821751 1 00015 4 ISBN 9780128217511 PMID 36813320 Abyadeh Morteza Gupta Vivek Chitranshi Nitin Gupta Veer Wu Yunqi Saks Danit WanderWall Roshana Fitzhenry Matthew J Basavarajappa Devaraj You Yuyi H Hosseini Ghasem A Haynes Paul L Graham Stuart Mirzaei Mehdi 2021 Mitochondrial dysfunction in Alzheimer s disease a proteomics perspective Expert Review of Proteomics 18 4 295 304 doi 10 1080 14789450 2021 1918550 PMID 33874826 S2CID 233310698 Stork C Renshaw P F 2005 Mitochondrial dysfunction in bipolar disorder Evidence from magnetic resonance spectroscopy research Molecular Psychiatry 10 10 900 19 doi 10 1038 sj mp 4001711 PMID 16027739 a b Pieczenik Steve R Neustadt John 2007 Mitochondrial dysfunction and molecular pathways of disease Experimental and Molecular Pathology 83 1 84 92 doi 10 1016 j yexmp 2006 09 008 PMID 17239370 Nierenberg Andrew A Kansky Christine Brennan Brian P Shelton Richard C Perlis Roy Iosifescu Dan V 2012 Mitochondrial modulators for bipolar disorder A pathophysiologically informed paradigm for new drug development Australian amp New Zealand Journal of Psychiatry 47 1 26 42 doi 10 1177 0004867412449303 PMID 22711881 S2CID 22983555 Valiente Palleja A Tortajada J Bulduk BK 2022 Comprehensive summary of mitochondrial DNA alterations in the postmortem human brain A systematic review eBioMedicine 76 103815 103815 doi 10 1016 j ebiom 2022 103815 PMC 8790490 PMID 35085849 Misiewicz Zuzanna Iurato Stella Kulesskaya Natalia Salminen Laura Rodrigues Luis Maccarrone Giuseppina Martins Jade Czamara Darina Laine Mikaela A Sokolowska Ewa Trontti Kalevi Rewerts Christiane Novak Bozidar Volk Naama Park Dong Ik Jokitalo Eija Paulin Lars Auvinen Petri Voikar Vootele Chen Alon Erhardt Angelika Turck Christoph W Hovatta Iiris 26 September 2019 Multi omics analysis identifies mitochondrial pathways associated with anxiety related behavior PLOS Genetics 15 9 e1008358 doi 10 1371 journal pgen 1008358 PMC 6762065 PMID 31557158 Muyderman H Chen T April 2014 Mitochondrial dysfunction in amyotrophic lateral sclerosis a valid pharmacological target British Journal of Pharmacology 171 8 2191 2205 doi 10 1111 bph 12476 PMC 3976630 PMID 24148000 Nunnari J Suomalainen A 2012 Mitochondria in sickness and in health Cell 148 6 1145 59 doi 10 1016 j cell 2012 02 035 PMC 5381524 PMID 22424226 Goldman A Khiste S Freinkman E Dhawan A Majumder B Mondal J et al August 2019 Targeting tumor phenotypic plasticity and metabolic remodeling in adaptive cross drug tolerance Science Signaling 12 595 doi 10 1126 scisignal aas8779 PMC 7261372 PMID 31431543 Saha T Dash C Jayabalan R et al 2021 Intercellular nanotubes mediate mitochondrial 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Journal of Psychiatry 47 1 26 42 doi 10 1177 0004867412449303 PMID 22711881 S2CID 22983555 Tachibana M Sparman M Sritanaudomchai H Ma H Clepper L Woodward J Li Y Ramsey C Kolotushkina O Mitalipov S September 2009 Mitochondrial gene replacement in primate offspring and embryonic stem cells Nature 461 7262 367 372 Bibcode 2009Natur 461 367T doi 10 1038 nature08368 PMC 2774772 PMID 19710649 Boseley Sarah 2010 04 14 Scientists reveal gene swapping technique to thwart inherited diseases Guardian London Craven Lyndsey Tuppen Helen A Greggains Gareth D Harbottle Stephen J Murphy Julie L Cree Lynsey M Murdoch Alison P Chinnery Patrick F Taylor Robert W Lightowlers Robert N Herbert Mary Turnbull Douglass M 2010 Pronuclear transfer in human embryos to prevent transmission of mitochondrial DNA disease Nature 465 7294 82 85 Bibcode 2010Natur 465 82C doi 10 1038 nature08958 PMC 2875160 PMID 20393463 nbsp UK urged to permit IVF procedure to prevent fatal genetic diseases The Guardian London 2015 04 30 Three parent baby law is irresponsible says Church of England ahead of vote The Telegraph London 2015 04 30 Hamzelou Jessica 2016 09 27 Exclusive World s first baby born with new 3 parent technique New Scientist Retrieved 2016 11 26 Sample Ian 2012 09 17 Regulator to consult public over plans for new fertility treatments The Guardian London Retrieved 8 October 2012 Genetically altered babies born BBC News 2001 05 04 Retrieved 2008 04 26 The Human Fertilisation and Embryology Mitochondrial Donation Regulations 2015 No 572 UK government backs three person IVF BBC News 27 June 2013 Knapton Sarah 1 March 2014 Three parent babies could be born in Britain next year The Daily Telegraph Science News Retrieved 1 March 2014 The Mitochondrial and Metabolic Disease Center Gorman Grainne S Grady John P Ng Yi Schaefer Andrew M McNally Richard J Chinnery Patrick F Yu Wai Man Patrick Herbert Mary Taylor Robert W McFarland Robert Turnbull Doug M 26 February 2015 Mitochondrial Donation How Many Women Could Benefit New England Journal of Medicine 372 9 885 887 doi 10 1056 NEJMc1500960 PMC 4481295 PMID 25629662 Claiborne A English R Kahn J 2016 Etiology Clinical Manifestation and Diagnosis In Claiborne Anne English Rebecca Kahn Jeffrey eds Mitochondrial Replacement Techniques p 37 doi 10 17226 21871 ISBN 978 0 309 38870 2 PMID 27054230 Young poet peace advocate Mattie dies the Spokesman Review Hayman John May 2013 Charles Darwin s Mitochondria Genetics 194 1 21 25 doi 10 1534 genetics 113 151241 PMC 3632469 PMID 23633139 External links edit nbsp Wikimedia Commons has media related to Mitochondrial diseases Mitochondrial disease at Curlie International Mito Patients IMP Retrieved from https en wikipedia org w index php title Mitochondrial disease amp oldid 1214711448, wikipedia, wiki, book, books, library,

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