Identification of six novel MYH9 mutations and genotype–phenotype relationships in autosomal dominant macrothrombocytopenia with leukocyte inclusions

Kunishima, Shinji; Matsushita, Tadashi; Kojima, Tetsuhito; Amemiya, Norihiko; Choi, Yong Mook; Hosaka, Naoki; Inoue, Masakazu; Jung, Youngzoon; Mamiya, S; Matsumoto, Kimikazu; Miyajima, Yuji; Zhang, Guangsen; Ruan, Changgeng; Saito, Kyoji; Song, Kyung Soon; Yoon, Hwi-Joong; Kamiya, Tadashi; Saito, Hidehiko

doi:10.1007/s100380170007

Cited by 103 publications

(113 citation statements)

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“…9 All of the patients had moderate-to-severe thrombocytopenia, but none had a bleeding tendency. Patient 2 and the father of patient 1 who also had an MYH9 mutation had been diagnosed with idiopathic thrombocytopenic purpura and treated accordingly.…”

Section: Patientsmentioning

confidence: 91%

Section: Introductionmentioning

confidence: 99%

“…A mutation of MYH9 alone does not seem to cause associated Alport manifestations, and unknown genetic and/or epigenetic factors might influence the phenotypic consequences of MYH9 mutations. [7][8][9][10] Although the molecular mechanisms of hematologic abnormalities are under investigation, those of the kidney, cochlea, and lens are completely unknown.We previously showed that NMMHC-IIA polypeptide accumulates in neutrophil cytoplasm and forms inclusion bodies in patients with MYH9 disorders. The nature of the cytoplasmic accumulation can be classified according to the number, size, and shape of accumulated NMMHC-IIA granules, into types I, II, and III.…”

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confidence: 99%

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Differential expression of wild-type and mutant NMMHC-IIA polypeptides in blood cells suggests cell-specific regulation mechanisms in MYH9 disorders

Kunishima

Hamaguchi

Saito

2008

Blood

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MYH9 disorders such as May-Hegglin anomaly are characterized by macrothrombocytopenia and cytoplasmic granulocyte inclusion bodies that result from mutations in MYH9, the gene for nonmuscle myosin heavy chain-IIA (NMMHC-IIA). We examined the expression of mutant NMMHC-IIA polypeptide in peripheral blood cells from patients with MYH9 5770delG and 5818delG mutations. A specific antibody to mutant NMMHC-IIA (NT629) was raised against the abnormal carboxyl-terminal residues generated by 5818delG. NT629 reacted to recombinant 5818delG NMMHC-IIA but not to wild-type NMMHC-IIA, and did not recognize any cellular components of normal peripheral blood cells. Immunofluorescence and immunoblotting revealed that mutant NMMHC-IIA was present and sequestrated only in inclusion bodies within neutrophils, diffusely distributed throughout lymphocyte cytoplasm, sparsely localized on a diffuse cytoplasmic background in monocytes, and uniformly distributed at diminished levels only in large platelets. Mutant NMMHC-IIA did not translocate to lamellipodia in surface activated platelets. Wild-type NMMHC-IIA was homogeneously distributed among megakaryocytes derived from the peripheral blood CD34 ؉ cells of patients, but coarse mutant NMMHC-IIA was heterogeneously scattered without abnormal aggregates in the cytoplasm. We show the differential expression of mutant NMMHC IntroductionMYH9 disorders are autosomal dominant macrothrombocytopenias characterized by giant platelets, thrombocytopenia, and Döhle body-like inclusion bodies in the cytoplasm of granulocytes. [1][2][3] These disorders are caused by heterozygous mutations in MYH9, which encodes nonmuscle myosin heavy chain-IIA (NMMHC-IIA), and include the May-Hegglin anomaly, Sebastian, Fechtner, and Epstein syndromes, Alport-like syndrome with macrothrombocytopenia, and nonsyndromic deafness (DFNA17). [4][5][6] An MYH9 mutation is always associated with macrothrombocytopenia and granulocyte inclusion bodies from birth, but it does not predict the development of Alport manifestations, including nephritis, deafness, and cataracts. A mutation of MYH9 alone does not seem to cause associated Alport manifestations, and unknown genetic and/or epigenetic factors might influence the phenotypic consequences of MYH9 mutations. [7][8][9][10] Although the molecular mechanisms of hematologic abnormalities are under investigation, those of the kidney, cochlea, and lens are completely unknown.We previously showed that NMMHC-IIA polypeptide accumulates in neutrophil cytoplasm and forms inclusion bodies in patients with MYH9 disorders. The nature of the cytoplasmic accumulation can be classified according to the number, size, and shape of accumulated NMMHC-IIA granules, into types I, II, and III. Type I comprises 1 or 2 large (0.5-2 m), intensely stained, oval-to spindle-shaped cytoplasmic NMMHC-IIA-positive granules. Type II comprises up to 20 circular to oval cytoplasmic spots (Յ 1 m). Type III appears as speckled staining. Furthermore, the pattern of localization correlates with the site of MYH9 ...

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Section: Patientsmentioning

confidence: 91%

Section: Introductionmentioning

confidence: 99%

mentioning

confidence: 99%

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Differential expression of wild-type and mutant NMMHC-IIA polypeptides in blood cells suggests cell-specific regulation mechanisms in MYH9 disorders

Kunishima

Hamaguchi

Saito

2008

Blood

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“…Although they were previously considered to be separate clinical entities, it is now established that all four disorders are caused by mutations in the MYH9 gene. Therefore, the name ''MYH9 disorder'' or ''MYH9-related disease'' has been proposed [15,[19][20][21]. To date, about 200 families with MYH9 disorders have been studied, in which 30 distinct mutations in the MYH9 gene have been identified [19][20][21][22].…”

Section: Related Disorders and Unsolved Issuesmentioning

confidence: 99%

“…Therefore, the name ''MYH9 disorder'' or ''MYH9-related disease'' has been proposed [15,[19][20][21]. To date, about 200 families with MYH9 disorders have been studied, in which 30 distinct mutations in the MYH9 gene have been identified [19][20][21][22]. The majority of patients are heterozygous for missense mutations and some patients are heterozygous for nonsense or frameshift mutation in the last exon.…”

Section: Related Disorders and Unsolved Issuesmentioning

confidence: 99%

Historical hematology: May–Hegglin anomaly

Saito

Kunishima

2007

American J Hematol

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May-Hegglin anomaly is a rare autosomal dominant platelet disorder characterized by thrombocytopenia, giant platelets, and unique leukocyte inclusion bodies. This disorder was first described by May, a German physician, in 1909, and was subsequently described by a Swiss physician, Hegglin, in 1945. The pathogenesis of the disorder had been unknown until recently, when mutations in the gene encoding for nonmuscle myosin heavy chain IIA (MYH9) were identified. Unique cytoplasmic inclusion bodies are aggregates of nonmuscle myosin heavy chain IIA, and are only present in granulocytes. It is not yet known why inclusion bodies are not present in platelets, monocytes, and lymphocytes, or how giant platelets are formed. Interestingly, MYH9 is also found to be responsible for several related disorders with macrothrombocytopenia and leukocytes inclusion, including Sebastian, Fechtner, and Epstein syndromes, which feature deafness, nephritis, and/or cataract. Current interest is centered upon the mechanisms by which a single mutation causes a variety of phenotypes. Am. J. Hematol. 83:304-306, 2008. V

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Genetics of Glomerular Basement Membrane Disorders

Kashtan

2012

Encyclopedia of Life Sciences

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The purpose of this review is to provide current information about glomerular disorders that arise directly from inherited abnormalities in extracellular matrix proteins intrinsic to the glomerular basement membrane (GBM) (Alport syndrome (AS), thin basement membrane nephropathy (TBMN), hereditary angiopathy associated with nephropathy, aneurysms and muscle cramps (HANAC) syndrome and Pierson syndrome), as well as disorders involving genetic defects in cellular proteins that result in structural defects in GBMs ( MYH9 ‐related disorders, Nail–Patella syndrome, NPS). All cases of AS and approximately 50% of cases of TBMN arise from mutations affecting a type IV collagen network composed of alpha;3, α4 and α5 type IV collagen chains. The cardinal clinical feature of these disorders is hematuria. HANAC syndrome is caused by mutations that affect type IV collagen networks made up of α1 and α2 type IV collagen chains and also presents with hematuria. In contrast, Pierson syndrome, which results from mutations in the gene encoding β2 laminin, is associated with proteinuria. Key Concepts: Important physiologic qualities of the glomerular capillary wall, such as high water flux and restricted transit of proteins, rely on specific extracellular matrix proteins and their interactions with other proteins and glomerular cells. Alport syndrome and thin basement membrane nephropathy (TBMN), the major genetic disorders of glomerular basement membranes (GBM), arise from abnormalities in a type IV collagen network comprising heterotrimers of α3, α4 and α5 type IV collagen chains. Extrarenal features of Alport syndrome (sensorineural deafness and ocular lesions) result from abnormal type IV collagen composition of cochlear and ocular basement membranes. Other inherited disorders of glomerular basement membranes result from laminin mutations (Pierson syndrome), mutations affected cytoskeletal function (MYH9‐related disorders) or dysregulation of the synthesis of extracellular matrix proteins (nail‐patella syndrome).

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Identification of six novel MYH9 mutations and genotype–phenotype relationships in autosomal dominant macrothrombocytopenia with leukocyte inclusions

Cited by 103 publications

References 11 publications

Differential expression of wild-type and mutant NMMHC-IIA polypeptides in blood cells suggests cell-specific regulation mechanisms in MYH9 disorders

Differential expression of wild-type and mutant NMMHC-IIA polypeptides in blood cells suggests cell-specific regulation mechanisms in MYH9 disorders

Historical hematology: May–Hegglin anomaly

Genetics of Glomerular Basement Membrane Disorders

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