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Pelger–Huët anomaly

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Pelger–Huët anomaly
Other namesPHA[1]
blood smear of a patient with myelodysplastic syndrome: red blood cells showing marked poikilocytosis, in part related to post-splenectomy status, a central and hypogranular neutrophil with a pseudo-Pelger-Huet nucleus.
Pronunciation
SpecialtyMedical genetics

Pelger–Huët anomaly is a blood laminopathy associated with the lamin B receptor,[2] wherein several types of white blood cells (neutrophils and eosinophils) have nuclei with unusual shape (being bilobed, peanut or dumbbell-shaped instead of the normal trilobed shape) and unusual structure (coarse and lumpy).[3]

Pelger–Huët anomaly has an autosomal dominant pattern of inheritance.

It is a genetic disorder with an autosomal dominant inheritance pattern. Heterozygotes are clinically normal, although their neutrophils may be mistaken for immature cells which may cause mistreatment in a clinical setting. Homozygotes tend to have neutrophils with rounded nuclei that do have some functional problems.[citation needed]

Congenital Pelger–Huët anomaly

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Is a benign dominantly inherited defect of terminal neutrophil differentiation as a result of mutations in the lamin B receptor gene. The characteristic leukocyte appearance was first reported in 1928 by Karel Pelger (1885-1931), a Dutch Hematologist, who described leukocytes with dumbbell-shaped bilobed nuclei, a reduced number of nuclear segments, and coarse clumping of the nuclear chromatin. In 1931, Gauthier Jean Huet (1879-1970), a Dutch Pediatrician, identified it as an inherited disorder.[4]

It is a genetic disorder with an autosomal dominant inheritance pattern.[2][5] Heterozygotes are clinically normal, although their neutrophils may be mistaken for immature cells, which may cause mistreatment in a clinical setting. Homozygotes tend to have neutrophils with rounded nuclei that do have some functional problems. Homozygous individuals inconsistently have skeletal anomalies such as post-axial polydactyly, short metacarpals, short upper limbs, short stature, or hyperkyphosis.[citation needed]

Identifying Pelger–Huët anomaly is important to differentiate from bandemia with a left-shifted peripheral blood smear and neutrophilic band forms and from an increase in young neutrophilic forms that can be observed in association with infection.[citation needed]

Acquired or pseudo-Pelger–Huët anomaly

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Anomalies resembling Pelger–Huët anomaly that are acquired rather than congenital have been described as pseudo Pelger–Huët anomaly. These can develop in the course of acute myelogenous leukemia or chronic myelogenous leukemia and in myelodysplastic syndrome. It has also been described in Filovirus disease.[6]

In patients with these conditions, the pseudo–Pelger–Huët cells tend to appear late in the disease and often appear after considerable chemotherapy has been administered. The morphologic changes have also been described in myxedema associated with panhypopituitarism, vitamin B12 and folate deficiency, multiple myeloma, enteroviral infections, malaria, muscular dystrophy, leukemoid reaction secondary to metastases to the bone marrow, and drug sensitivity, sulfa and valproate toxicities[7] are examples. In some of these conditions, especially the drug-induced cases, it is important to differentiate between Pelger–Huët anomaly and pseudo-Pelger–Huët to prevent the need for further unnecessary testing for cancer.[8]

Peripheral blood smear shows a predominance of neutrophils with bilobed nuclei which are composed of two nuclear masses connected with a thin filament of chromatin. It resembles the pince-nez glasses, so it is often referred to as pince-nez appearance. Usually the congenital form is not associated with thrombocytopenia and leukopenia, so if these features are present more detailed search for myelodysplasia is warranted, as pseudo-Pelger–Huët anomaly can be an early feature of myelodysplasia.[9]

In 2022, Reilly et al. showed that loss of LMNB1, the gene encoding lamin B1, is necessary and sufficient to cause pseudo-Pelger-Huet anomaly in neutrophils.[10] Myeloid malignancies with pseudo-Pelger-Huet neutrophils typically have deletion of chromosome 5q, which contains the LMNB1 gene.[11]

References

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  1. ^ "OMIM Entry - # 169400 - PELGER-HUET ANOMALY; PHA". omim.org. Retrieved 31 October 2019.
  2. ^ a b Hoffmann, Katrin; Dreger, Christine K.; Olins, Ada L.; Olins, Donald E.; Shultz, Leonard D.; Lucke, Barbara; Karl, Hartmut; Kaps, Reinhard; Müller, Dietmar; Vayá, Amparo; Aznar, Justo; Ware, Russell E.; Cruz, Norberto Sotelo; Lindner, Tom H.; Herrmann, Harald; Reis, André; Sperling, Karl (2002). "Mutations in the gene encoding the lamin B receptor produce an altered nuclear morphology in granulocytes (Pelger–Huët anomaly)". Nature Genetics. 31 (4): 410–4. doi:10.1038/ng925. PMID 12118250. S2CID 6020153.
  3. ^ "Pelger-Huet anomaly". Disease Infosearch. Retrieved 2020-04-27. Creative Commons Attribution 3.0 License
  4. ^ Cunningham, John M.; Patnaik, Mrinal M.; Hammerschmidt, Dale E.; Vercellotti, Gregory M. (2009). "Historical perspective and clinical implications of the Pelger-Huet cell". American Journal of Hematology. 84 (2): 116–9. doi:10.1002/ajh.21320. PMID 19021122.
  5. ^ Vale, A. M.; Tomaz, L. R.; Sousa, R. S.; Soto-Blanco, B. (2011). "Pelger-Huët anomaly in two related mixed-breed dogs". Journal of Veterinary Diagnostic Investigation. 23 (4): 863–5. doi:10.1177/1040638711407891. PMID 21908340.
  6. ^ Gear, JS; Cassel, GA; Gear, AJ; Trappler, B; Clausen, L; Meyers, AM; Kew, MC; Bothwell, TH; Sher, R; Miller, GB; Schneider, J; Koornhof, HJ; Gomperts, ED; Isaäcson, M; Gear, JH (1975). "Outbreake of Marburg virus disease in Johannesburg". British Medical Journal. 4 (5995): 489–93. doi:10.1136/bmj.4.5995.489. PMC 1675587. PMID 811315.
  7. ^ Singh, Nishith K.; Nagendra, Sanjai (2008). "Reversible Neutrophil Abnormalities Related to Supratherapeutic Valproic Acid Levels". Mayo Clinic Proceedings. 83 (5): 600. doi:10.4065/83.5.600. PMID 18452694.
  8. ^ Colella, Rita; Hollensead, Sandra C. (2012). "Understanding and Recognizing the Pelger-Huët Anomaly". American Journal of Clinical Pathology. 137 (3). Oxford University Press (OUP): 358–366. doi:10.1309/ajcp3g8mduxyscid. ISSN 0002-9173.
  9. ^ Pelger-Huet Anomaly at eMedicine
  10. ^ Reilly, Andreea; Philip Creamer, J.; Stewart, Sintra; Stolla, Massiel C.; Wang, Yuchuan; Du, Jing; Wellington, Rachel; Busch, Stephanie; Estey, Elihu H.; Becker, Pamela S.; Fang, Min; Keel, Siobán B.; Abkowitz, Janis L.; Soma, Lorinda A.; Ma, Jian; Duan, Zhijun; Doulatov, Sergei (2022). "Lamin B1 deletion in myeloid neoplasms causes nuclear anomaly and altered hematopoietic stem cell function". Cell Stem Cell. 29 (4). Elsevier BV: 577–592.e8. doi:10.1016/j.stem.2022.02.010. ISSN 1934-5909. PMC 9018112.
  11. ^ Papapetrou, Eirini P. (2022). "MDS/AML with del5q: An acquired "laminopathy"?". Cell Stem Cell. 29 (4). Elsevier BV: 498–499. doi:10.1016/j.stem.2022.03.008. ISSN 1934-5909. PMC 10294253.
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