The clinical and laboratory evaluation of patients with suspected hypocellular marrow failure

The overlap in clinical presentation and bone marrow features of acquired and inherited causes of hypocellular marrow failure poses a significant diagnostic challenge in real case scenarios, particularly in nonsevere disease. The distinction between acquired aplastic anemia (aAA), hypocellular myelodysplastic syndrome (MDS), and inherited bone marrow failure syndromes presenting with marrow hypocellularity is critical to inform appropriate care. Here, we review the workup of hypocellular marrow failure in adolescents through adults. Given the limitations of relying on clinical stigmata or family history to identify patients with inherited etiologies, we outline a diagnostic approach incorporating comprehensive genetic testing in patients with hypocellular marrow failure that does not require immediate therapy and thus allows time to complete the evaluation. We also review the clinical utility of marrow array to detect acquired 6p copy number-neutral loss of heterozygosity to support a diagnosis of aAA, the complexities of telomere length testing in patients with aAA, short telomere syndromes, and other inherited bone marrow failure syndromes, as well as the limitations of somatic mutation testing for mutations in myeloid malignancy genes for discriminating between the various diagnostic possibilities.

Liver Histology in Short Telomere Syndrome: A Case Report and Review of the Literature

Short telomere syndrome (STS) encompasses a broad family of genetically inherited conditions caused by various mutations in telomerase and other telomere maintenance genes, resulting in premature telomere shortening. STS involves a variety of clinical manifestations, including dyskeratosis congenita, premature achromotrichia, bone marrow failure, immunodeficiency, pulmonary fibrosis and liver disease. Liver histopathologic features in STS patients have not been well characterized. We report a 46-year-old male patient who presented for dyspnea. The patient had a complicated medical history significant for immune thrombocytopenic purpura and splenectomy, recurrent respiratory tract infections, pneumonia, primary immunodeficiency, and severe hepatopulmonary syndrome. He and his brother both developed gray hair by their late 20s. He had a long history of intermittently elevated liver enzymes starting at age 33. These clinical manifestations prompted an evaluation for a possible telomere biology disorder, which revealed the telomere length was critically short and fell at or below the first percentile for age, supporting the diagnosis. The liver biopsy showed marked portal inflammation with interface hepatitis, ductular reaction and frequent foci of lobular inflammation with focal hepatocyte dropout. Hepatocytes around the portal tracts demonstrated ballooning degeneration and occasional Mallory-Denk bodies. A trichrome stain highlighted bridging fibrosis. A literature review shows liver histology is available in only a small number of STS patients, demonstrating a variety of morphologic features. Our case and others suggest liver disease associated with STS exhibits a spectrum of histopathology. Being aware of these features is important for establishing the correct diagnosis of STS which is under recognized.

NAD-Linked Metabolism and Intervention in Short Telomere Syndromes and Murine Models of Telomere Dysfunction

Telomeres are specialized nucleoprotein structures that form protective caps at the ends of chromosomes. Short telomeres are a hallmark of aging and a principal defining feature of short telomere syndromes, including dyskeratosis congenita (DC). Emerging evidence suggests a crucial role for critically short telomere-induced DNA damage signaling and mitochondrial dysfunction in cellular dysfunction in DC. A prominent factor linking nuclear DNA damage and mitochondrial homeostasis is the nicotinamide adenine dinucleotide (NAD) metabolite. Recent studies have demonstrated that patients with DC and murine models with critically short telomeres exhibit lower NAD levels, and an imbalance in the NAD metabolome, including elevated CD38 NADase and reduced poly (ADP-ribose) polymerase and SIRT1 activities. CD38 inhibition and/or supplementation with NAD precursors reequilibrate imbalanced NAD metabolism and alleviate mitochondrial impairment, telomere DNA damage, telomere dysfunction-induced DNA damage signaling, and cellular growth retardation in primary fibroblasts derived from DC patients. Boosting NAD levels also ameliorate chemical-induced liver fibrosis in murine models of telomere dysfunction. These findings underscore the relevance of NAD dysregulation to telomeropathies and demonstrate how NAD interventions may prove to be effective in combating cellular and organismal defects that occur in short telomere syndromes.

Liver histology in short telomere syndrome: A case report and review of the literature

Introduction/Objective Short telomere syndrome (STS) is a genetically inherited syndrome resulting in premature telomere shortening. STS encompasses a spectrum of clinical manifestations, including dyskeratosis congenita, premature hair graying, bone marrow failure, immunodeficiency, pulmonary fibrosis and liver disease. Liver histopathologic features in STS patients have not been well characterized. Methods/Case Report A 46-year-old man presented for dyspnea and cryptogenic cirrhosis. He had a complicated medical history significant for immune thrombocytopenic purpura and splenectomy, recurrent respiratory tract infections, pneumonia, sepsis, primary immunodeficiency, pulmonary mucosa-associated lymphoid tissue lymphoma, and severe hepatopulmonary syndrome. He and his brother had gray hair in their late 20s. He also had a long history of intermittently elevated liver enzymes starting at age 33. A liver biopsy performed 12 years before showed chronic portal inflammation with hepatocellular damage without significant fibrosis. These clinical manifestations prompted an evaluation for a possible telomere biology disorder, which revealed the telomere length was critically short and fell at or below the first percentile for age, supportive of the diagnosis. The most recent liver biopsy showed marked portal lymphocytic inflammation with interface hepatitis, bile ductular reaction and frequent foci of lobular inflammation with focal hepatocyte dropout. Some hepatocytes around the portal tracts were swollen with feathery degeneration and occasional Mallory-Denk bodies. A Rhodanine stain highlighted copper granules in the periportal hepatocytes, suggesting chronic cholestasis. Trichrome and reticulin stains demonstrated portal/periportal/pericellular/perisinusoidal fibrosis and focal bridging fibrosis. Results (if a Case Study enter NA) NA Conclusion Partly due to the rarity of STS and the risk of bleeding associated with biopsies, liver histology was described in only few limited studies with small samples of STS patients, including inflammation, nodular regenerative hyperplasia, steatohepatitis, hemosiderosis, cholestasis, cirrhosis, and large cell change of hepatocytes. Our case and others suggest liver disease associated with STS demonstrates a spectrum of histopathology. Being aware of these histomorphologic features in STS is important for establishing the correct diagnosis.

Somatic reversion impacts MDS/AML evolution in the short telomere syndromes

Inherited mutations in telomerase and other telomere maintenance genes manifest in the premature aging short telomere syndromes. Myelodysplastic syndromes and acute myeloid leukemia (MDS/AML) account for 75% of associated malignancies, but how these cancers overcome the germline telomere defect is unknown. We used targeted ultra-deep sequencing to detect candidate somatic reversion mutations hypothesizing they may promote MDS/AML evolution. While no controls carried somatic mutations in telomere maintenance genes (0 of 28), 29% of adults with germline telomere maintenance defects carried at least one (16 of 56, P<0.001). In addition to TERT promoter mutations which were present in 19%, we identified POT1 and TERF2IP mutations in 13%. POT1 mutations impaired telomere binding and in some cases were identical to those found in familial melanoma associated with longer telomere length. Exclusively in patients with germline defects in telomerase RNA (TR), we identified somatic mutations in nuclear RNA exosome genes, RBM7, SKIV2L2, and DIS3, where loss-of-function upregulates mature TR levels. Paradoxically, somatic reversion events were more prevalent in patients who were MDS/AML-free (P=0.01, RR 5.0, 95% CI 1.4-18.9), and no MDS/AML patient had more than one mutant clone (P=0.048). Our data identify diverse somatic adaptive mechanisms in the short telomere syndromes, and raise the possibility that their presence alleviates the telomere crisis that promotes transformation to MDS/AML.