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Hemoglobin C

February 15, 2024

Hemoglobin C (abbreviated as HbC) is an abnormal hemoglobin in which glutamic acid residue at the 6th position of the β-globin chain is replaced with a lysine residue due to a point mutation in the HBB gene.[1] People with one copy of the gene for hemoglobin C do not experience symptoms, but can pass the abnormal gene on to their children. Those with two copies of the gene are said to have hemoglobin C disease and can experience mild anemia. It is possible for a person to have both the gene for hemoglobin S (the form associated with sickle cell anemia) and the gene for hemoglobin C; this state is called hemoglobin SC disease, and is generally more severe than hemoglobin C disease, but milder than sickle cell anemia.[2]

Hemoglobin C
SpecialtyHematology 

HbC was discovered by Harvey Itano and James V. Neel in 1950 in two African-American families. It has since been established that it is most common among people in West Africa. It confers survival benefits as individuals with HbC are naturally resistant to malaria caused by Plasmodium falciparum, albeit incompletely.

Symptoms and signs edit

People with one copy of the gene for hemoglobin C (termed heterozygous) do not experience significant symptoms, but can pass the abnormal gene onto their children; this condition is called hemoglobin C trait. When two hemoglobin C genes are present (termed homozygous), the individual is said to have hemoglobin C disease, and may develop mild anemia, as red blood cells containing hemoglobin C have a decreased lifespan. The anemia in hemoglobin C disease is classified as hemolytic, because it is caused by the destruction of red blood cells. An enlarged spleen, and sometimes jaundice, may also occur.[1][3][4] Some persons with this disease may develop gallstones that require treatment.[5] Continued hemolysis may produce pigmented gallstones, an unusual type of gallstone composed of the dark-colored contents of red blood cells.[6]

Red blood cell abnormalities edit

The red blood cells of people with hemoglobin C disease are usually abnormally small (microcytic) with a high mean corpuscular hemoglobin concentration (MCHC). The high MCHC is caused by a decreased concentration of water inside the cells. Target cells, microspherocytes, and HbC crystals can be seen on microscopic examination of blood smears from homozygous patients.[2]

Combinations with other conditions edit

 
Blood film of hemoglobin SC disease, showing many target cells and few sickle cells

HbC can combine with other abnormal hemoglobins and cause serious hemoglobinopathies. Individuals with sickle cell–hemoglobin C (HbSC), have inherited the gene for sickle cell disease (HbS) from one parent and the gene for hemoglobin C disease (HbC) from the other parent. Since HbC does not polymerize as readily as HbS, there is less sickling in most cases. There are fewer acute vaso-occlusive events and therefore in some cases fewer sickle cell crises. The peripheral smear demonstrates mostly target cells, occasional hemoglobin C crystals, and only a few sickle cells. However, persons with hemoglobin SC disease (HbSC) have more significant retinopathy, ischemic necrosis of bone, and priapism than those with pure SS disease.[2]

There are also a few cases of HbC in combination with HbO, HbD and beta thalassemia.[1]

Genetics edit

Hemoglobin C is produced when a point mutation in the HBB gene causes amino acid substitution of glutamic acid to lysine at the 6th position of the β-globin chain of the hemoglobin. The mutation can be homozygous, occurring on both the chromosomes (alleles), or heterozygous, affecting only one allele.[1] Under heterozygous condition, people are said to have hemoglobin C trait, or as hemoglobin C carriers, and they have one gene for HbC with either one HbA gene or HbS gene. Their red blood cells contain both hemoglobin C and either normal hemoglobin A or hemoglobin S. Hemoglobin C mutation is an autosomal recessive disorder that results from the biparental inheritance of the allele that encodes for hemoglobin C.[6] If both parents are carriers of hemoglobin C, there is a chance of having a child with hemoglobin C disease. Assuming both parents are carriers, there is a 25% chance of having a child with hemoglobin C disease, a 50% chance of having a child who is a carrier of hemoglobin C, and a 25% chance of having a child who is neither a carrier nor affected by hemoglobin C disease.[4]

This mutated form reduces the normal plasticity of host erythrocytes causing a hemoglobinopathy. In those who are heterozygous for the mutation, about 28–44% of total hemoglobin (Hb) is HbC, and no anemia develops. In homozygotes, nearly all Hb is in the HbC form, resulting in mild hemolytic anemia, jaundice and enlargement of spleen.[1]

Resistance to malaria edit

Individuals with HbC have reduced risk of P. falciparum malaria infection.[7] HbC has been described as being more advantageous than HbS because, even in homozygous individuals, it is usually non-fatal.[8] However, in contrast to HbS, it does not prevent malaria due to P. vivax,[9] and is less effective in resistance to falciparum malaria in heterozygous conditions.[7] Homozygous HbC is more resistant to heterozygous condition, or to thalassemias.[10][11] But HbC mutation does not prevent the infection. P. falciparum do not survive in red blood cells with homozygous hemoglobins, but can survive in the presence of heterozygous hemoglobins.[10] HbC reduced the binding force (cytoadherence) of P. falciparum by reducing the activity of PfEMP1.[12] Evidences indicate that HbC reduced the level of PfEMP1, which is required for effective binding and invasion of RBC by the malarial parasite.[13] It has been predicted that with the trend of HbC mutation and falciparum prevalence, HbC would replace HbS in central West Africa in the future.[10]

Diagnosis edit

Physical examination may show an enlarged spleen. Tests that may be done include: complete blood count (CBC), hemoglobin electrophoresis, and peripheral blood smear.[5]

Prevention edit

Genetic counseling may be appropriate for high-risk couples who wish to have a baby.[14]

Treatment edit

Usually no treatment is needed. Folic acid supplementation may help produce normal red blood cells and improve the symptoms of anemia [14]

Prognosis edit

Overall, hemoglobin C disease is one of the more benign hemoglobinopathies.[6] Mild-to-moderate reduction in RBC lifespan may accompany from mild hemolytic anemia. Individuals with hemoglobin C disease have sporadic episodes of musculoskeletal (joint) pain.[6] People with hemoglobin C disease can expect to lead a normal life.[14]

Epidemiology edit

Hemoglobin C is found most abundantly in areas of West Africa, such as Nigeria, where Yorubas live.[15][16][17] Hemoglobin C gene is found in 2-3% of African-Americans[4] while 8% of African-Americans have hemoglobin S (Sickle) gene. Thus Hemoglobin SC disease is significantly more common than Hemoglobin CC disease. The trait also affects people whose ancestors came from Italy, Greece, Latin America, and the Caribbean region.[4] However, it is possible for a person of any race or nationality to have hemoglobin C trait. In terms of geographic distribution, the hemoglobin C allele is found at the highest frequencies in West Africa, where it has been associated with protection against malaria.[3] Hemoglobin C disease is present at birth, though some cases may not be diagnosed until adulthood. Both males and females are affected equally.[6]

History edit

Studying the molecular basis of sickle cell disease, Linus Pauling and Harvey Itano at the California Institute of Technology discovered in 1949 that the disease was due to abnormal hemoglobin called HBS.[18][19] In 1950, Itano and James V. Neel discovered from two African-American families a different blood condition very similar to sickle cell disease.[20][21] Five of the ten individuals indicated sickled RBCs. But the condition was harmless as the individuals had no anaemia. Thus, it was not clear whether it was involved in sickle cell disease. Genetically, the abnormal hemoglobin was only in heterozygous condition.[22] The next year, Neel and his colleagues established that the hemoglobin is associated with sickle cell disease.[23]

The hemoglobin was named hemoglobin III,[24] but hemoglobin C was eventually used.[25][26] By 1954, it was found that the mutant hemoglobin was highly prevalent in West Africa.[27][28] In 1960, Vernon Ingram and J. A. Hunt at the University of Cambridge discovered that the mutation was a single amino acid replacement of glutamic acid with lysine.[29]

References edit

  1. ^ a b c d e Karna, Bibek; Jha, Suman K.; Al Zaabi, Eiman (2020), "Hemoglobin C Disease", StatPearls, Treasure Island (FL): StatPearls Publishing, PMID 32644469, retrieved 2020-10-26   This article incorporates text available under the CC BY 4.0 license.
  2. ^ a b c Nagel, Ronald L.; Fabry, Mary E.; Steinberg, Martin H. (2003). "The paradox of hemoglobin SC disease". Blood Reviews. 17 (3): 167–78. doi:10.1016/S0268-960X(03)00003-1. PMID 12818227.
  3. ^ a b Fairhurst, Rick M.; Casella, James F. (2004). "Homozygous Hemoglobin C Disease". New England Journal of Medicine. 350 (26): e24. doi:10.1056/NEJMicm030486. PMID 15215497.
  4. ^ a b c d "Hemoglobin C Trait". Stjude.org. Retrieved 2015-03-03.
  5. ^ a b "Updating PubMed Health - National Library of Medicine - PubMed Health". Ncbi.nlm.nih.gov. 2014-11-12. Retrieved 2015-03-03.
  6. ^ a b c d e Hemoglobin C Disease at eMedicine
  7. ^ a b Taylor, Steve M.; Parobek, Christian M.; Fairhurst, Rick M. (2012). "Haemoglobinopathies and the clinical epidemiology of malaria: a systematic review and meta-analysis". The Lancet. 12 (6): 457–468. doi:10.1016/S1473-3099(12)70055-5. PMC 3404513. PMID 22445352.
  8. ^ Travassos, Mark A.; Coulibaly, Drissa; Laurens, Matthew B.; Dembélé, Ahmadou; Tolo, Youssouf; Koné, Abdoulaye K.; Traoré, Karim; Niangaly, Amadou; Guindo, Aldiouma; Wu, Yukun; Berry, Andrea A. (2015). "Hemoglobin C Trait Provides Protection From Clinical Falciparum Malaria in Malian Children". The Journal of Infectious Diseases. 212 (11): 1778–1786. doi:10.1093/infdis/jiv308. PMC 4633765. PMID 26019283.
  9. ^ Kreuels, Benno; Kreuzberg, Christina; Kobbe, Robin; Ayim-Akonor, Matilda; Apiah-Thompson, Peter; Thompson, Benedicta; Ehmen, Christa; Adjei, Samuel; Langefeld, Iris; Adjei, Ohene; May, Jürgen (2010). "Differing effects of HbS and HbC traits on uncomplicated falciparum malaria, anemia, and child growth". Blood. 115 (22): 4551–4558. doi:10.1182/blood-2009-09-241844. PMID 20231425.
  10. ^ a b c Modiano, D.; Luoni, G.; Sirima, B. S.; Simporé, J.; Verra, F.; Konaté, A.; Rastrelli, E.; Olivieri, A.; Calissano, C.; Paganotti, G. M.; D'Urbano, L. (2001). "Haemoglobin C protects against clinical Plasmodium falciparum malaria". Nature. 414 (6861): 305–308. Bibcode:2001Natur.414..305M. doi:10.1038/35104556. PMID 11713529. S2CID 4360808.
  11. ^ Taylor, Steve M.; Parobek, Christian M.; Fairhurst, Rick M. (2012). "Haemoglobinopathies and the clinical epidemiology of malaria: a systematic review and meta-analysis". The Lancet Infectious Diseases. 12 (6): 457–468. doi:10.1016/S1473-3099(12)70055-5. PMC 3404513. PMID 22445352.
  12. ^ Fairhurst, Rick M.; Baruch, Dror I.; Brittain, Nathaniel J.; Ostera, Graciela R.; Wallach, John S.; Hoang, Holly L.; Hayton, Karen; Guindo, Aldiouma; Makobongo, Morris O.; Schwartz, Owen M.; Tounkara, Anatole (2005). "Abnormal display of PfEMP-1 on erythrocytes carrying haemoglobin C may protect against malaria". Nature. 435 (7045): 1117–1121. Bibcode:2005Natur.435.1117F. doi:10.1038/nature03631. PMID 15973412. S2CID 4412263.
  13. ^ Fairhurst, Rick M.; Bess, Cameron D.; Krause, Michael A. (2012). "Abnormal PfEMP1/knob display on Plasmodium falciparum-infected erythrocytes containing hemoglobin variants: fresh insights into malaria pathogenesis and protection". Microbes and Infection. 14 (10): 851–862. doi:10.1016/j.micinf.2012.05.006. PMC 3396718. PMID 22634344.
  14. ^ a b c MedlinePlus Encyclopedia: Hemoglobin C disease
  15. ^ Akinyanju, Olufemi O. (1989). "A Profile of Sickle Cell Disease in Nigeria". Annals of the New York Academy of Sciences. 565 (1): 126–36. Bibcode:1989NYASA.565..126A. doi:10.1111/j.1749-6632.1989.tb24159.x. PMID 2672962. S2CID 24734397.
  16. ^ Fairhurst, R. M.; Fujioka, H.; Hayton, K.; Collins, K. F.; Wellems, T. E. (2003). "Aberrant development of Plasmodium falciparum in hemoglobin CC red cells: implications for the malaria protective effect of the homozygous state". Blood. 101 (8): 3309–15. doi:10.1182/blood-2002-10-3105. PMID 12480691.
  17. ^ Edington, G. M.; Lehmann, H. (1956). "36. The Distribution of Haemoglobin C in West Africa". Man. 56: 34–36. doi:10.2307/2793520. ISSN 0025-1496. JSTOR 2793520.
  18. ^ Pauling L, Itano HA (November 1949). "Sickle cell anemia a molecular disease". Science. 110 (2865): 543–8. Bibcode:1949Sci...110..543P. doi:10.1126/science.110.2865.543. PMID 15395398. S2CID 31674765.
  19. ^ Serjeant GR (December 2010). "One hundred years of sickle cell disease". British Journal of Haematology. 151 (5): 425–9. doi:10.1111/j.1365-2141.2010.08419.x. PMID 20955412. S2CID 44763460.
  20. ^ Hiernauz, J.; Linhard, J.; Livingstone, F. B.; Neel, J. V.; Robinson, A.; Zuelzer, W. W. (1956). "Date on the occurrence of hemoglobin C and other abnormal hemoglobins in some African populations". American Journal of Human Genetics. 8 (3): 138–150. PMC 1716688. PMID 13362221.
  21. ^ Huehns, E. R. (1970). "Diseases due to abnormalities of hemoglobin structure". Annual Review of Medicine. 21: 157–178. doi:10.1146/annurev.me.21.020170.001105. PMID 4912473.
  22. ^ Itano, H. A.; Neel, J. V. (1950). "A new inherited abnormality of human hemoglobin". Proceedings of the National Academy of Sciences of the United States of America. 36 (11): 613–617. Bibcode:1950PNAS...36..613I. doi:10.1073/pnas.36.11.613. PMC 1063254. PMID 14808148.
  23. ^ Kaplan, E.; Zuelzer, W. W.; Neel, J. V. (1951). "A new inherited abnormality of hemoglobin and its interaction with sickle cell hemoglobin". Blood. 6 (12): 1240–1249. doi:10.1182/blood.V6.12.1240.1240. PMID 14886398.
  24. ^ White, J. C.; Beaver, G. H. (1954). "A review of the varieties of human haemoglobin in health and disease". Journal of Clinical Pathology. 7 (3): 175–200. doi:10.1136/jcp.7.3.175. PMC 1023791. PMID 13192193.
  25. ^ Singer, Karl; Singer, Lily (1953). "Studies on Abnormal Hemoglobins". Blood. 8 (11): 1008–1023. doi:10.1182/blood.V8.11.1008.1008.
  26. ^ Schell, Norman B. (1956). "SICKLE-CELL-HEMOGLOBIN-C DISEASE: Report of a Case with Electrophoretic Studies of Hemoglobin in Family Members". A.M.A. Journal of Diseases of Children. 91 (1): 38–44. doi:10.1001/archpedi.1956.02060020040008. PMID 13275117.
  27. ^ Edington, G.M; Lehmann, H (1954). "A case of sickle cell — Haemoglobin C disease and a survey of haemoglobin C incidence in West Africa". Transactions of the Royal Society of Tropical Medicine and Hygiene. 48 (4): 332–336. doi:10.1016/0035-9203(54)90104-2. PMID 13187564.
  28. ^ Edington, G. M.; Lehmann, H. (1956). "The Distribution of Haemoglobin C in West Africa". Man. 56: 34. doi:10.2307/2793520. JSTOR 2793520.
  29. ^ Hunt, J.A.; Ingram, V.M. (1960). "Abnormal human haemoglobins". Biochimica et Biophysica Acta. 42: 409–421. doi:10.1016/0006-3002(60)90818-0. PMID 13716852.

External links edit

February 15, 2024
hemoglobin, abbreviated, abnormal, hemoglobin, which, glutamic, acid, residue, position, globin, chain, replaced, with, lysine, residue, point, mutation, gene, people, with, copy, gene, hemoglobin, experience, symptoms, pass, abnormal, gene, their, children, t. Hemoglobin C abbreviated as HbC is an abnormal hemoglobin in which glutamic acid residue at the 6th position of the b globin chain is replaced with a lysine residue due to a point mutation in the HBB gene 1 People with one copy of the gene for hemoglobin C do not experience symptoms but can pass the abnormal gene on to their children Those with two copies of the gene are said to have hemoglobin C disease and can experience mild anemia It is possible for a person to have both the gene for hemoglobin S the form associated with sickle cell anemia and the gene for hemoglobin C this state is called hemoglobin SC disease and is generally more severe than hemoglobin C disease but milder than sickle cell anemia 2 Hemoglobin CSpecialtyHematology HbC was discovered by Harvey Itano and James V Neel in 1950 in two African American families It has since been established that it is most common among people in West Africa It confers survival benefits as individuals with HbC are naturally resistant to malaria caused by Plasmodium falciparum albeit incompletely Contents 1 Symptoms and signs 1 1 Red blood cell abnormalities 1 2 Combinations with other conditions 2 Genetics 3 Resistance to malaria 4 Diagnosis 5 Prevention 6 Treatment 7 Prognosis 8 Epidemiology 9 History 10 References 11 External linksSymptoms and signs editPeople with one copy of the gene for hemoglobin C termed heterozygous do not experience significant symptoms but can pass the abnormal gene onto their children this condition is called hemoglobin C trait When two hemoglobin C genes are present termed homozygous the individual is said to have hemoglobin C disease and may develop mild anemia as red blood cells containing hemoglobin C have a decreased lifespan The anemia in hemoglobin C disease is classified as hemolytic because it is caused by the destruction of red blood cells An enlarged spleen and sometimes jaundice may also occur 1 3 4 Some persons with this disease may develop gallstones that require treatment 5 Continued hemolysis may produce pigmented gallstones an unusual type of gallstone composed of the dark colored contents of red blood cells 6 Red blood cell abnormalities edit The red blood cells of people with hemoglobin C disease are usually abnormally small microcytic with a high mean corpuscular hemoglobin concentration MCHC The high MCHC is caused by a decreased concentration of water inside the cells Target cells microspherocytes and HbC crystals can be seen on microscopic examination of blood smears from homozygous patients 2 Combinations with other conditions edit nbsp Blood film of hemoglobin SC disease showing many target cells and few sickle cellsHbC can combine with other abnormal hemoglobins and cause serious hemoglobinopathies Individuals with sickle cell hemoglobin C HbSC have inherited the gene for sickle cell disease HbS from one parent and the gene for hemoglobin C disease HbC from the other parent Since HbC does not polymerize as readily as HbS there is less sickling in most cases There are fewer acute vaso occlusive events and therefore in some cases fewer sickle cell crises The peripheral smear demonstrates mostly target cells occasional hemoglobin C crystals and only a few sickle cells However persons with hemoglobin SC disease HbSC have more significant retinopathy ischemic necrosis of bone and priapism than those with pure SS disease 2 There are also a few cases of HbC in combination with HbO HbD and beta thalassemia 1 Genetics editHemoglobin C is produced when a point mutation in the HBB gene causes amino acid substitution of glutamic acid to lysine at the 6th position of the b globin chain of the hemoglobin The mutation can be homozygous occurring on both the chromosomes alleles or heterozygous affecting only one allele 1 Under heterozygous condition people are said to have hemoglobin C trait or as hemoglobin C carriers and they have one gene for HbC with either one HbA gene or HbS gene Their red blood cells contain both hemoglobin C and either normal hemoglobin A or hemoglobin S Hemoglobin C mutation is an autosomal recessive disorder that results from the biparental inheritance of the allele that encodes for hemoglobin C 6 If both parents are carriers of hemoglobin C there is a chance of having a child with hemoglobin C disease Assuming both parents are carriers there is a 25 chance of having a child with hemoglobin C disease a 50 chance of having a child who is a carrier of hemoglobin C and a 25 chance of having a child who is neither a carrier nor affected by hemoglobin C disease 4 This mutated form reduces the normal plasticity of host erythrocytes causing a hemoglobinopathy In those who are heterozygous for the mutation about 28 44 of total hemoglobin Hb is HbC and no anemia develops In homozygotes nearly all Hb is in the HbC form resulting in mild hemolytic anemia jaundice and enlargement of spleen 1 Resistance to malaria editIndividuals with HbC have reduced risk of P falciparum malaria infection 7 HbC has been described as being more advantageous than HbS because even in homozygous individuals it is usually non fatal 8 However in contrast to HbS it does not prevent malaria due to P vivax 9 and is less effective in resistance to falciparum malaria in heterozygous conditions 7 Homozygous HbC is more resistant to heterozygous condition or to thalassemias 10 11 But HbC mutation does not prevent the infection P falciparum do not survive in red blood cells with homozygous hemoglobins but can survive in the presence of heterozygous hemoglobins 10 HbC reduced the binding force cytoadherence of P falciparum by reducing the activity of PfEMP1 12 Evidences indicate that HbC reduced the level of PfEMP1 which is required for effective binding and invasion of RBC by the malarial parasite 13 It has been predicted that with the trend of HbC mutation and falciparum prevalence HbC would replace HbS in central West Africa in the future 10 Diagnosis editPhysical examination may show an enlarged spleen Tests that may be done include complete blood count CBC hemoglobin electrophoresis and peripheral blood smear 5 Prevention editGenetic counseling may be appropriate for high risk couples who wish to have a baby 14 Treatment editUsually no treatment is needed Folic acid supplementation may help produce normal red blood cells and improve the symptoms of anemia 14 Prognosis editOverall hemoglobin C disease is one of the more benign hemoglobinopathies 6 Mild to moderate reduction in RBC lifespan may accompany from mild hemolytic anemia Individuals with hemoglobin C disease have sporadic episodes of musculoskeletal joint pain 6 People with hemoglobin C disease can expect to lead a normal life 14 Epidemiology editHemoglobin C is found most abundantly in areas of West Africa such as Nigeria where Yorubas live 15 16 17 Hemoglobin C gene is found in 2 3 of African Americans 4 while 8 of African Americans have hemoglobin S Sickle gene Thus Hemoglobin SC disease is significantly more common than Hemoglobin CC disease The trait also affects people whose ancestors came from Italy Greece Latin America and the Caribbean region 4 However it is possible for a person of any race or nationality to have hemoglobin C trait In terms of geographic distribution the hemoglobin C allele is found at the highest frequencies in West Africa where it has been associated with protection against malaria 3 Hemoglobin C disease is present at birth though some cases may not be diagnosed until adulthood Both males and females are affected equally 6 History editStudying the molecular basis of sickle cell disease Linus Pauling and Harvey Itano at the California Institute of Technology discovered in 1949 that the disease was due to abnormal hemoglobin called HBS 18 19 In 1950 Itano and James V Neel discovered from two African American families a different blood condition very similar to sickle cell disease 20 21 Five of the ten individuals indicated sickled RBCs But the condition was harmless as the individuals had no anaemia Thus it was not clear whether it was involved in sickle cell disease Genetically the abnormal hemoglobin was only in heterozygous condition 22 The next year Neel and his colleagues established that the hemoglobin is associated with sickle cell disease 23 The hemoglobin was named hemoglobin III 24 but hemoglobin C was eventually used 25 26 By 1954 it was found that the mutant hemoglobin was highly prevalent in West Africa 27 28 In 1960 Vernon Ingram and J A Hunt at the University of Cambridge discovered that the mutation was a single amino acid replacement of glutamic acid with lysine 29 References edit a b c d e Karna Bibek Jha Suman K Al Zaabi Eiman 2020 Hemoglobin C Disease StatPearls Treasure Island FL StatPearls Publishing PMID 32644469 retrieved 2020 10 26 nbsp This article incorporates text available under the CC BY 4 0 license a b c Nagel Ronald L Fabry Mary E Steinberg Martin H 2003 The paradox of hemoglobin SC disease Blood Reviews 17 3 167 78 doi 10 1016 S0268 960X 03 00003 1 PMID 12818227 a b Fairhurst Rick M Casella James F 2004 Homozygous Hemoglobin C Disease New England Journal of Medicine 350 26 e24 doi 10 1056 NEJMicm030486 PMID 15215497 a b c d Hemoglobin C Trait Stjude org Retrieved 2015 03 03 a b Updating PubMed Health National Library of Medicine PubMed Health Ncbi nlm nih gov 2014 11 12 Retrieved 2015 03 03 a b c d e Hemoglobin C Disease at eMedicine a b Taylor Steve M Parobek Christian M Fairhurst Rick M 2012 Haemoglobinopathies and the clinical epidemiology of malaria a systematic review and meta analysis The Lancet 12 6 457 468 doi 10 1016 S1473 3099 12 70055 5 PMC 3404513 PMID 22445352 Travassos Mark A Coulibaly Drissa Laurens Matthew B Dembele Ahmadou Tolo Youssouf Kone Abdoulaye K Traore Karim Niangaly Amadou Guindo Aldiouma Wu Yukun Berry Andrea A 2015 Hemoglobin C Trait Provides Protection From Clinical Falciparum Malaria in Malian Children The Journal of Infectious Diseases 212 11 1778 1786 doi 10 1093 infdis jiv308 PMC 4633765 PMID 26019283 Kreuels Benno Kreuzberg Christina Kobbe Robin Ayim Akonor Matilda Apiah Thompson Peter Thompson Benedicta Ehmen Christa Adjei Samuel Langefeld Iris Adjei Ohene May Jurgen 2010 Differing effects of HbS and HbC traits on uncomplicated falciparum malaria anemia and child growth Blood 115 22 4551 4558 doi 10 1182 blood 2009 09 241844 PMID 20231425 a b c Modiano D Luoni G Sirima B S Simpore J Verra F Konate A Rastrelli E Olivieri A Calissano C Paganotti G M D Urbano L 2001 Haemoglobin C protects against clinical Plasmodium falciparum malaria Nature 414 6861 305 308 Bibcode 2001Natur 414 305M doi 10 1038 35104556 PMID 11713529 S2CID 4360808 Taylor Steve M Parobek Christian M Fairhurst Rick M 2012 Haemoglobinopathies and the clinical epidemiology of malaria a systematic review and meta analysis The Lancet Infectious Diseases 12 6 457 468 doi 10 1016 S1473 3099 12 70055 5 PMC 3404513 PMID 22445352 Fairhurst Rick M Baruch Dror I Brittain Nathaniel J Ostera Graciela R Wallach John S Hoang Holly L Hayton Karen Guindo Aldiouma Makobongo Morris O Schwartz Owen M Tounkara Anatole 2005 Abnormal display of PfEMP 1 on erythrocytes carrying haemoglobin C may protect against malaria Nature 435 7045 1117 1121 Bibcode 2005Natur 435 1117F doi 10 1038 nature03631 PMID 15973412 S2CID 4412263 Fairhurst Rick M Bess Cameron D Krause Michael A 2012 Abnormal PfEMP1 knob display on Plasmodium falciparum infected erythrocytes containing hemoglobin variants fresh insights into malaria pathogenesis and protection Microbes and Infection 14 10 851 862 doi 10 1016 j micinf 2012 05 006 PMC 3396718 PMID 22634344 a b c MedlinePlus Encyclopedia Hemoglobin C disease Akinyanju Olufemi O 1989 A Profile of Sickle Cell Disease in Nigeria Annals of the New York Academy of Sciences 565 1 126 36 Bibcode 1989NYASA 565 126A doi 10 1111 j 1749 6632 1989 tb24159 x PMID 2672962 S2CID 24734397 Fairhurst R M Fujioka H Hayton K Collins K F Wellems T E 2003 Aberrant development of Plasmodium falciparum in hemoglobin CC red cells implications for the malaria protective effect of the homozygous state Blood 101 8 3309 15 doi 10 1182 blood 2002 10 3105 PMID 12480691 Edington G M Lehmann H 1956 36 The Distribution of Haemoglobin C in West Africa Man 56 34 36 doi 10 2307 2793520 ISSN 0025 1496 JSTOR 2793520 Pauling L Itano HA November 1949 Sickle cell anemia a molecular disease Science 110 2865 543 8 Bibcode 1949Sci 110 543P doi 10 1126 science 110 2865 543 PMID 15395398 S2CID 31674765 Serjeant GR December 2010 One hundred years of sickle cell disease British Journal of Haematology 151 5 425 9 doi 10 1111 j 1365 2141 2010 08419 x PMID 20955412 S2CID 44763460 Hiernauz J Linhard J Livingstone F B Neel J V Robinson A Zuelzer W W 1956 Date on the occurrence of hemoglobin C and other abnormal hemoglobins in some African populations American Journal of Human Genetics 8 3 138 150 PMC 1716688 PMID 13362221 Huehns E R 1970 Diseases due to abnormalities of hemoglobin structure Annual Review of Medicine 21 157 178 doi 10 1146 annurev me 21 020170 001105 PMID 4912473 Itano H A Neel J V 1950 A new inherited abnormality of human hemoglobin Proceedings of the National Academy of Sciences of the United States of America 36 11 613 617 Bibcode 1950PNAS 36 613I doi 10 1073 pnas 36 11 613 PMC 1063254 PMID 14808148 Kaplan E Zuelzer W W Neel J V 1951 A new inherited abnormality of hemoglobin and its interaction with sickle cell hemoglobin Blood 6 12 1240 1249 doi 10 1182 blood V6 12 1240 1240 PMID 14886398 White J C Beaver G H 1954 A review of the varieties of human haemoglobin in health and disease Journal of Clinical Pathology 7 3 175 200 doi 10 1136 jcp 7 3 175 PMC 1023791 PMID 13192193 Singer Karl Singer Lily 1953 Studies on Abnormal Hemoglobins Blood 8 11 1008 1023 doi 10 1182 blood V8 11 1008 1008 Schell Norman B 1956 SICKLE CELL HEMOGLOBIN C DISEASE Report of a Case with Electrophoretic Studies of Hemoglobin in Family Members A M A Journal of Diseases of Children 91 1 38 44 doi 10 1001 archpedi 1956 02060020040008 PMID 13275117 Edington G M Lehmann H 1954 A case of sickle cell Haemoglobin C disease and a survey of haemoglobin C incidence in West Africa Transactions of the Royal Society of Tropical Medicine and Hygiene 48 4 332 336 doi 10 1016 0035 9203 54 90104 2 PMID 13187564 Edington G M Lehmann H 1956 The Distribution of Haemoglobin C in West Africa Man 56 34 doi 10 2307 2793520 JSTOR 2793520 Hunt J A Ingram V M 1960 Abnormal human haemoglobins Biochimica et Biophysica Acta 42 409 421 doi 10 1016 0006 3002 60 90818 0 PMID 13716852 External links editHemoglobin C at the U S National Library of Medicine Medical Subject Headings MeSH Hemoglobin C Disease at the U S National Library of Medicine Medical Subject Headings MeSH Retrieved from https en wikipedia org w index php title Hemoglobin C amp oldid 1140442569, wikipedia, wiki, book, books, library,

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