T cell clonal expansion and STAT3 mutations: a characteristic feature of acquired chronic T cell-mediated pure red cell aplasia.

Acquired chronic pure red cell aplasia (PRCA) develops idiopathically or in association with other medical conditions, including T cell large granular lymphocytic leukemia (T-LGLL) and thymoma. T cell dysregulation is considered a cardinal pathogenesis of PRCA, but genetic-phenotypic associations in T cell abnormalities are largely unclear. We evaluated an extended cohort of 90 patients with acquired PRCA, including 26 with idiopathic, 36 with T-LGLL-associated and 15 with thymoma-associated PRCA, for their T cell immuno-phenotypes, clonalities and STAT3 mutations. TCR repertoire skewing of CD8+ T cells was detected in 37.5% of idiopathic, 66.7% of T-LGLL-associated and 25% of thymoma-associated PRCA patients, and restriction to Vß1 was most prominent (41%). Clonalities of TCRß or γ chain and STAT3 mutational status were statistically associated (P = 0.0398), and they were detected in all three subtypes. The overall response rate to cyclosporin A was 73.9%, without significant difference by subtypes nor STAT3 mutational status. The T cell dysregulations, such as TCR repertoire skewing with predominant Vß1 usage, clonality and STAT3 mutations, were frequently found across the subtypes, and the close associations between them suggest that these T cell derangements reflect a common pathophysiological mechanism among these PRCA subtypes.

A novel germline GATA2 frameshift mutation with a premature stop codon in a family with congenital sensory hearing loss and myelodysplastic syndrome.

GATA2 is a zinc-finger transcription factor regulating early hematopoiesis and developmental processes. Heterozygous germline mutations in GATA2 underlie a pleiotropic autosomal dominant disorder, GATA2 deficiency syndrome. The wide spectrum of its clinical features involves familial predisposition to myelodysplastic syndrome (MDS)/acute myeloid leukemia (AML) and multiorgan dysfunction, including congenital sensorineural hearing loss (CSHL). We herein report a pedigree with a novel germline frameshift mutation presenting as CSHL and familial MDS. The proband was a 46-year-old man, and his daughter also presented with an identical set of clinical syndromes. Target DNA sequencing identified a novel eight-nucleotide duplicative insertion at exon 5 (NM_032638.4:c.1126_1133dup:p.Lys378Asnfs*12)　of the GATA2 gene. RT-PCR and subcloning analysis showed that the frameshift might result in a truncated mutation with an early stop codon without interfering with the predicted splice site. The predicted mutant protein had 388 amino acids and in silico analysis showed the variant was considered deleterious. This mutation was not detected in unaffected family members. Its deleterious effect is highly likely to have portended the familial MDS and CSHL in this pedigree. Genetic testing among suspected individuals may be warranted for adequate management, including timely transplantation.