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Pyruvate kinase deficiency

April 14, 2024

Pyruvate kinase deficiency is an inherited metabolic disorder of the enzyme pyruvate kinase which affects the survival of red blood cells.[4][5] Both autosomal dominant and recessive inheritance have been observed with the disorder; classically, and more commonly, the inheritance is autosomal recessive. Pyruvate kinase deficiency is the second most common cause of enzyme-deficient hemolytic anemia, following G6PD deficiency.[6]

Pyruvate kinase deficiency
Other namesErythrocyte pyruvate kinase deficiency[1]
Phosphoenolpyruvate
SpecialtyHematology 
SymptomsAnemia, tachycardia[2]
CausesMutation in PKLR gene[3]
Diagnostic methodPhysical exam, CBC[4]
TreatmentBlood transfusion[4]

Signs and symptoms edit

 
Gallstones

Symptoms can be extremely varied among those suffering from pyruvate kinase deficiency. The majority of those suffering from the disease are detected at birth while some only present symptoms during times of great physiological stress such as pregnancy, or with acute illnesses (viral disorders).[7] Symptoms are limited to or most severe during childhood.[8] Among the symptoms of pyruvate kinase deficiency are:[2]

The level of 2,3-bisphosphoglycerate is elevated: 1,3-bisphosphoglycerate, a precursor of phosphoenolpyruvate which is the substrate for Pyruvate kinase, is increased and so the Luebering-Rapoport pathway is overactivated. This led to a rightward shift in the oxygen dissociation curve of hemoglobin (i.e. it decreases the hemoglobin affinity for oxygen): In consequence, patients may tolerate anemia surprisingly well.[9]

Cause edit

Pyruvate kinase deficiency is due to a mutation in the PKLR gene. There are four pyruvate kinase isoenzymes, two of which are encoded by the PKLR gene (isoenzymes L and R, which are used in the liver and erythrocytes, respectively). Mutations in the PKLR gene therefore cause a deficiency in the pyruvate kinase enzyme.[3][10]

180 different mutations have been found on the gene coding for the L and R isoenzymes, 124 of which are single-nucleotide missense mutations.[11] Pyruvate kinase deficiency is most commonly an autosomal recessive trait.[12] Although it is mostly homozygotes that demonstrate symptoms of the disorder,[2] compound heterozygotes can also show clinical signs.[11]

Pathophysiology edit

 
ATP-3D

Pyruvate kinase is the last enzyme involved in the glycolytic process, transferring the phosphate group from phosphenol pyruvate to a waiting adenosine diphosphate (ADP) molecule, resulting in both adenosine triphosphate (ATP) and pyruvate. This is the second ATP producing step of the process and the third regulatory reaction.[7][13] Pyruvate kinase deficiency in the red blood cells results in an inadequate amount of or complete lack of the enzyme, blocking the completion of the glycolytic pathway. Therefore, all products past the block would be deficient in the red blood cell. These products include ATP and pyruvate.[2]

Mature erythrocytes lack a nucleus and mitochondria. Without a nucleus, they lack the ability to synthesize new proteins so if anything happens to their pyruvate kinase, they are unable to generate replacement enzymes throughout the rest of their life cycle. Without mitochondria, erythrocytes are heavily dependent on the anaerobic generation of ATP during glycolysis for nearly all of their energy requirements.[14]

With insufficient ATP in an erythrocyte, all active processes in the cell come to a halt. Sodium potassium ATPase pumps are the first to stop. Since the cell membrane is more permeable to potassium than sodium, potassium leaks out. Intracellular fluid becomes hypotonic, water moves down its concentration gradient out of the cell. The cell shrinks and cellular death occurs, this is called 'dehydration at cellular level'.[2][15][16] This is how a deficiency in pyruvate kinase results in hemolytic anaemia, the body is deficient in red blood cells as they are destroyed by lack of ATP at a larger rate than they are being created.[17]

Diagnosis edit

The diagnosis of pyruvate kinase deficiency can be done by full blood counts (differential blood counts) and reticulocyte counts.[18] Other methods include direct enzyme assays, which can determine pyruvate kinase levels in erythrocytes separated by density centrifugation, as well as direct DNA sequencing. For the most part when dealing with pyruvate kinase deficiency, these two diagnostic techniques are complementary to each other as they both contain their own flaws. Direct enzyme assays can diagnose the disorder and molecular testing confirms the diagnosis or vice versa.[6] Furthermore, tests to determine bile salts (bilirubin) can be used to see whether the gall bladder has been compromised.[18]

Treatment edit

Most affected individuals with pyruvate kinase deficiency do not require treatment. Those individuals who are more severely affected may die in utero of anemia or may require intensive treatment. With these severe cases of pyruvate kinase deficiency in red blood cells, treatment is the only option, there is no cure. However, treatment is usually effective in reducing the severity of the symptoms.[13][19]

The most common treatment is blood transfusions, especially in infants and young children. This is done if the red blood cell count has fallen to a critical level.[12] The transplantation of bone marrow has also been conducted as a treatment option.[10]

There is a natural way the body tries to treat this disease. It increases the erythrocyte production (reticulocytosis) because reticulocytes are immature red blood cells that still contain mitochondria and so can produce ATP via oxidative phosphorylation.[14] Therefore, a treatment option in extremely severe cases is to perform a splenectomy. This does not stop the destruction of erythrocytes but it does help increase the amount of reticulocytes in the body since most of the hemolysis occurs when the reticulocytes are trapped in the hypoxic environment of the spleen. This reduces severe anemia and the need for blood transfusions.[8]

Mitapivat was approved for medical use in the United States in February 2022.[20]

Epidemiology edit

Pyruvate kinase deficiency happens worldwide, however northern Europe, and Japan have many cases. The prevalence of pyruvate kinase deficiency is around 51 cases per million in the population (via gene frequency).[13][21]

See also edit

References edit

  1. ^ Online Mendelian Inheritance in Man (OMIM): 266200
  2. ^ a b c d e "Pyruvate Kinase Deficiency Clinical Presentation: History and Physical Examination". emedicine.medscape.com. Retrieved 2015-11-11.
  3. ^ a b "Pyruvate kinase deficiency". Genetics Home Reference. 2015-11-09. Retrieved 2015-11-11.
  4. ^ a b c "Pyruvate kinase deficiency: MedlinePlus Medical Encyclopedia". www.nlm.nih.gov. Retrieved 2015-11-11.
  5. ^ . rarediseases.info.nih.gov. Archived from the original on 2015-09-05. Retrieved 2015-11-11.
  6. ^ a b Gallagher, Patrick G.; Glader, Bertil (2016-05-01). "Diagnosis of Pyruvate Kinase Deficiency". Pediatric Blood & Cancer. 63 (5): 771–772. doi:10.1002/pbc.25922. ISSN 1545-5017. PMID 26836632. S2CID 42964783.
  7. ^ a b Gordon-Smith, E.C. (1974). "Pyruvate kinase deficiency". Journal of Clinical Pathology. s3-8 (1): 128–133. doi:10.1136/jcp.27.suppl_8.128. PMC 1347209. PMID 4536359.
  8. ^ a b "Pyruvate Kinase Deficiency: Practice Essentials, Background, Pathophysiology". 2016-08-23. {{cite journal}}: Cite journal requires |journal= (help)
  9. ^ al.], Ronald (2013). Hematology basic principles and practice (6th ed.). Philadelphia, PA: Saunders/Elsevier. p. 703. ISBN 9781455740413.
  10. ^ a b Zanella, Alberto; Fermo, Elisa; Bianchi, Paola; Valentini, Giovanna (2005-07-01). "Red cell pyruvate kinase deficiency: molecular and clinical aspects". British Journal of Haematology. 130 (1): 11–25. doi:10.1111/j.1365-2141.2005.05527.x. ISSN 1365-2141. PMID 15982340.
  11. ^ a b Christensen, Robert D.; Yaish, Hassan M.; Johnson, Charlotte B.; Bianchi, Paola; Zanella, Alberto (October 2011). "Six Children with Pyruvate Kinase Deficiency from One Small Town: Molecular Characterization of the PK-LR Gene". The Journal of Pediatrics. 159 (4): 695–697. doi:10.1016/j.jpeds.2011.05.043. PMID 21784452.
  12. ^ a b Zanella, A.; Bianchi, P.; Fermo, E. (2007-06-01). "Pyruvate kinase deficiency". Haematologica. 92 (6): 721–723. doi:10.3324/haematol.11469. ISSN 0390-6078. PMID 17550841.
  13. ^ a b c "Pyruvate Kinase Deficiency. Information about PKD | Patient". Patient. 19 August 2011. Retrieved 2015-11-11.
  14. ^ a b Wijk, Richard van; Solinge, Wouter W. van (2005-12-15). "The energy-less red blood cell is lost: erythrocyte enzyme abnormalities of glycolysis". Blood. 106 (13): 4034–4042. doi:10.1182/blood-2005-04-1622. ISSN 0006-4971. PMID 16051738.
  15. ^ "Pyruvate Kinase Deficiency: Practice Essentials, Background, Pathophysiology". 2018-08-09. {{cite journal}}: Cite journal requires |journal= (help)
  16. ^ Haematology Made Easy. AuthorHouse. 2013-02-06. p. 181. ISBN 9781477246511.
  17. ^ Jacobasch, Gisela; Rapoport, Samuel M. (1996-04-01). "Chapter 3 Hemolytic anemias due to erythrocyte enzyme deficiencies". Molecular Aspects of Medicine. 17 (2): 143–170. doi:10.1016/0098-2997(96)88345-2. PMID 8813716.
  18. ^ a b Disorders, National Organization for Rare (2003-01-01). NORD Guide to Rare Disorders. Lippincott Williams & Wilkins. p. 496. ISBN 9780781730631.
  19. ^ Davey, Patrick (2010-02-01). Medicine at a Glance. John Wiley & Sons. p. 341. ISBN 9781405186162.
  20. ^ "Agios Announces FDA Approval of Pyrukynd (mitapivat) as First Disease-Modifying Therapy for Hemolytic Anemia in Adults with Pyruvate Kinase Deficiency" (Press release). Agios Pharmaceuticals. 17 February 2022. Retrieved 19 February 2022 – via GlobeNewswire.
  21. ^ Beutler, Ernest; Gelbart, Terri (2000). (PDF). Blood. 95 (11): 3585–3588. doi:10.1182/blood.V95.11.3585. PMID 10828047. Archived from the original (PDF) on 2017-08-21. Retrieved 2016-11-25.

Further reading edit

  • Hoffman, Ronald; Benz, Edward J. Jr.; Silberstein, Leslie E.; Heslop, Helen; Weitz, Jeffrey; Anastasi, John (2013-02-12). Hematology: Diagnosis and Treatment. Elsevier Health Sciences. ISBN 978-1455776887.
  • Baroncian, Luciano (1994). "Prenatal Diagnosis of Pyruvate Kinase Deficiency". Blood. 84 (7): 2354–2356. doi:10.1182/blood.V84.7.2354.2354. PMID 7919353.

External links edit

 
Scholia has a topic profile for Pyruvate kinase deficiency.

April 14, 2024
pyruvate, kinase, deficiency, inherited, metabolic, disorder, enzyme, pyruvate, kinase, which, affects, survival, blood, cells, both, autosomal, dominant, recessive, inheritance, have, been, observed, with, disorder, classically, more, commonly, inheritance, a. Pyruvate kinase deficiency is an inherited metabolic disorder of the enzyme pyruvate kinase which affects the survival of red blood cells 4 5 Both autosomal dominant and recessive inheritance have been observed with the disorder classically and more commonly the inheritance is autosomal recessive Pyruvate kinase deficiency is the second most common cause of enzyme deficient hemolytic anemia following G6PD deficiency 6 Pyruvate kinase deficiencyOther namesErythrocyte pyruvate kinase deficiency 1 PhosphoenolpyruvateSpecialtyHematology SymptomsAnemia tachycardia 2 CausesMutation in PKLR gene 3 Diagnostic methodPhysical exam CBC 4 TreatmentBlood transfusion 4 Contents 1 Signs and symptoms 2 Cause 3 Pathophysiology 4 Diagnosis 5 Treatment 6 Epidemiology 7 See also 8 References 9 Further reading 10 External linksSigns and symptoms edit nbsp GallstonesSymptoms can be extremely varied among those suffering from pyruvate kinase deficiency The majority of those suffering from the disease are detected at birth while some only present symptoms during times of great physiological stress such as pregnancy or with acute illnesses viral disorders 7 Symptoms are limited to or most severe during childhood 8 Among the symptoms of pyruvate kinase deficiency are 2 Mild to severe hemolytic Anemia Cholecystolithiasis Tachycardia Hemochromatosis Icteric sclera Splenomegaly Leg ulcers Jaundice Fatigue Shortness of breathThe level of 2 3 bisphosphoglycerate is elevated 1 3 bisphosphoglycerate a precursor of phosphoenolpyruvate which is the substrate for Pyruvate kinase is increased and so the Luebering Rapoport pathway is overactivated This led to a rightward shift in the oxygen dissociation curve of hemoglobin i e it decreases the hemoglobin affinity for oxygen In consequence patients may tolerate anemia surprisingly well 9 Cause editPyruvate kinase deficiency is due to a mutation in the PKLR gene There are four pyruvate kinase isoenzymes two of which are encoded by the PKLR gene isoenzymes L and R which are used in the liver and erythrocytes respectively Mutations in the PKLR gene therefore cause a deficiency in the pyruvate kinase enzyme 3 10 180 different mutations have been found on the gene coding for the L and R isoenzymes 124 of which are single nucleotide missense mutations 11 Pyruvate kinase deficiency is most commonly an autosomal recessive trait 12 Although it is mostly homozygotes that demonstrate symptoms of the disorder 2 compound heterozygotes can also show clinical signs 11 Pathophysiology edit nbsp ATP 3DPyruvate kinase is the last enzyme involved in the glycolytic process transferring the phosphate group from phosphenol pyruvate to a waiting adenosine diphosphate ADP molecule resulting in both adenosine triphosphate ATP and pyruvate This is the second ATP producing step of the process and the third regulatory reaction 7 13 Pyruvate kinase deficiency in the red blood cells results in an inadequate amount of or complete lack of the enzyme blocking the completion of the glycolytic pathway Therefore all products past the block would be deficient in the red blood cell These products include ATP and pyruvate 2 Mature erythrocytes lack a nucleus and mitochondria Without a nucleus they lack the ability to synthesize new proteins so if anything happens to their pyruvate kinase they are unable to generate replacement enzymes throughout the rest of their life cycle Without mitochondria erythrocytes are heavily dependent on the anaerobic generation of ATP during glycolysis for nearly all of their energy requirements 14 With insufficient ATP in an erythrocyte all active processes in the cell come to a halt Sodium potassium ATPase pumps are the first to stop Since the cell membrane is more permeable to potassium than sodium potassium leaks out Intracellular fluid becomes hypotonic water moves down its concentration gradient out of the cell The cell shrinks and cellular death occurs this is called dehydration at cellular level 2 15 16 This is how a deficiency in pyruvate kinase results in hemolytic anaemia the body is deficient in red blood cells as they are destroyed by lack of ATP at a larger rate than they are being created 17 Diagnosis editThe diagnosis of pyruvate kinase deficiency can be done by full blood counts differential blood counts and reticulocyte counts 18 Other methods include direct enzyme assays which can determine pyruvate kinase levels in erythrocytes separated by density centrifugation as well as direct DNA sequencing For the most part when dealing with pyruvate kinase deficiency these two diagnostic techniques are complementary to each other as they both contain their own flaws Direct enzyme assays can diagnose the disorder and molecular testing confirms the diagnosis or vice versa 6 Furthermore tests to determine bile salts bilirubin can be used to see whether the gall bladder has been compromised 18 Treatment editMost affected individuals with pyruvate kinase deficiency do not require treatment Those individuals who are more severely affected may die in utero of anemia or may require intensive treatment With these severe cases of pyruvate kinase deficiency in red blood cells treatment is the only option there is no cure However treatment is usually effective in reducing the severity of the symptoms 13 19 The most common treatment is blood transfusions especially in infants and young children This is done if the red blood cell count has fallen to a critical level 12 The transplantation of bone marrow has also been conducted as a treatment option 10 There is a natural way the body tries to treat this disease It increases the erythrocyte production reticulocytosis because reticulocytes are immature red blood cells that still contain mitochondria and so can produce ATP via oxidative phosphorylation 14 Therefore a treatment option in extremely severe cases is to perform a splenectomy This does not stop the destruction of erythrocytes but it does help increase the amount of reticulocytes in the body since most of the hemolysis occurs when the reticulocytes are trapped in the hypoxic environment of the spleen This reduces severe anemia and the need for blood transfusions 8 Mitapivat was approved for medical use in the United States in February 2022 20 Epidemiology editPyruvate kinase deficiency happens worldwide however northern Europe and Japan have many cases The prevalence of pyruvate kinase deficiency is around 51 cases per million in the population via gene frequency 13 21 See also editList of hematologic conditionsReferences edit Online Mendelian Inheritance in Man OMIM 266200 a b c d e Pyruvate Kinase Deficiency Clinical Presentation History and Physical Examination emedicine medscape com Retrieved 2015 11 11 a b Pyruvate kinase deficiency Genetics Home Reference 2015 11 09 Retrieved 2015 11 11 a b c Pyruvate kinase deficiency MedlinePlus Medical Encyclopedia www nlm nih gov Retrieved 2015 11 11 Pyruvate kinase deficiency Disease Overview Genetic and Rare Diseases Information Center GARD an NCATS Program rarediseases info nih gov Archived from the original on 2015 09 05 Retrieved 2015 11 11 a b Gallagher Patrick G Glader Bertil 2016 05 01 Diagnosis of Pyruvate Kinase Deficiency Pediatric Blood amp Cancer 63 5 771 772 doi 10 1002 pbc 25922 ISSN 1545 5017 PMID 26836632 S2CID 42964783 a b Gordon Smith E C 1974 Pyruvate kinase deficiency Journal of Clinical Pathology s3 8 1 128 133 doi 10 1136 jcp 27 suppl 8 128 PMC 1347209 PMID 4536359 a b Pyruvate Kinase Deficiency Practice Essentials Background Pathophysiology 2016 08 23 a href Template Cite journal html title Template Cite journal cite journal a Cite journal requires journal help al Ronald 2013 Hematology basic principles and practice 6th ed Philadelphia PA Saunders Elsevier p 703 ISBN 9781455740413 a b Zanella Alberto Fermo Elisa Bianchi Paola Valentini Giovanna 2005 07 01 Red cell pyruvate kinase deficiency molecular and clinical aspects British Journal of Haematology 130 1 11 25 doi 10 1111 j 1365 2141 2005 05527 x ISSN 1365 2141 PMID 15982340 a b Christensen Robert D Yaish Hassan M Johnson Charlotte B Bianchi Paola Zanella Alberto October 2011 Six Children with Pyruvate Kinase Deficiency from One Small Town Molecular Characterization of the PK LR Gene The Journal of Pediatrics 159 4 695 697 doi 10 1016 j jpeds 2011 05 043 PMID 21784452 a b Zanella A Bianchi P Fermo E 2007 06 01 Pyruvate kinase deficiency Haematologica 92 6 721 723 doi 10 3324 haematol 11469 ISSN 0390 6078 PMID 17550841 a b c Pyruvate Kinase Deficiency Information about PKD Patient Patient 19 August 2011 Retrieved 2015 11 11 a b Wijk Richard van Solinge Wouter W van 2005 12 15 The energy less red blood cell is lost erythrocyte enzyme abnormalities of glycolysis Blood 106 13 4034 4042 doi 10 1182 blood 2005 04 1622 ISSN 0006 4971 PMID 16051738 Pyruvate Kinase Deficiency Practice Essentials Background Pathophysiology 2018 08 09 a href Template Cite journal html title Template Cite journal cite journal a Cite journal requires journal help Haematology Made Easy AuthorHouse 2013 02 06 p 181 ISBN 9781477246511 Jacobasch Gisela Rapoport Samuel M 1996 04 01 Chapter 3 Hemolytic anemias due to erythrocyte enzyme deficiencies Molecular Aspects of Medicine 17 2 143 170 doi 10 1016 0098 2997 96 88345 2 PMID 8813716 a b Disorders National Organization for Rare 2003 01 01 NORD Guide to Rare Disorders Lippincott Williams amp Wilkins p 496 ISBN 9780781730631 Davey Patrick 2010 02 01 Medicine at a Glance John Wiley amp Sons p 341 ISBN 9781405186162 Agios Announces FDA Approval of Pyrukynd mitapivat as First Disease Modifying Therapy for Hemolytic Anemia in Adults with Pyruvate Kinase Deficiency Press release Agios Pharmaceuticals 17 February 2022 Retrieved 19 February 2022 via GlobeNewswire Beutler Ernest Gelbart Terri 2000 Estimating the prevalence of pyruvate kinase deficiency from the gene frequency in the general white population PDF Blood 95 11 3585 3588 doi 10 1182 blood V95 11 3585 PMID 10828047 Archived from the original PDF on 2017 08 21 Retrieved 2016 11 25 Further reading editHoffman Ronald Benz Edward J Jr Silberstein Leslie E Heslop Helen Weitz Jeffrey Anastasi John 2013 02 12 Hematology Diagnosis and Treatment Elsevier Health Sciences ISBN 978 1455776887 Baroncian Luciano 1994 Prenatal Diagnosis of Pyruvate Kinase Deficiency Blood 84 7 2354 2356 doi 10 1182 blood V84 7 2354 2354 PMID 7919353 External links edit nbsp Scholia has a topic profile for Pyruvate kinase deficiency Retrieved from https en wikipedia org w index php title Pyruvate kinase deficiency amp oldid 1205659250, wikipedia, wiki, book, books, library,

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