Timothy Tidwell scite author profile

There are two main forms of hereditary neutropenia: cyclic and severe congenital neutropenia (SCN). Cyclic neutropenia is an autosomal dominant disorder in which neutrophil counts fluctuate between nearly normal levels and close to zero with 21-day periodicity. In contrast, SCN, also known as Kostmann syndrome, consists of chronic and profound neutropenia, with a characteristic promyelocytic maturation arrest in the bone marrow. Unlike cyclic neutropenia, SCN displays frequent acquisition of somatic mutations in the gene, CSF3R, encoding the Granulocyte Colony-Stimulating Factor Receptor (G-CSFR), and a strong predisposition to developing myelodysplasia (MDS) and/or acute myeloid leukemia (AML). Cyclic neutropenia is caused by heterozygous mutations in the gene, ELANE (formerly known as ELA2), encoding the neutrophil granule serine protease, neutrophil elastase. SCN is genetically heterogeneous, but it is most frequently associated with ELANE mutations. While some of the different missense mutations in ELANE exhibit phenotype-genotype correlation, the same mutations are sometimes found in patients with either form of inherited neutropenia. The mutations lead to production of a mutant polypeptide, but no common biochemical abnormality, including effects on proteolysis, has been identified. Two non-mutually exclusive theories have been advanced to explain how the mutations might produce neutropenia. The mislocalization hypothesis states that mutations within neutrophil elastase or involving other proteins responsible for its intracellular trafficking cause neutrophil elastase to accumulate in inappropriate subcellular compartments. The misfolding hypothesis proposes that mutations prevent the protein from properly folding, thereby inducing the stress response pathway within the endoplasmic reticulum (ER). We discuss how the mutations themselves provide clues into pathogenesis, describe supporting and contradictory observations for both theories, and highlight outstanding questions relating to pathophysiology of neutropenia.

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Neutropenia-associated ELANE mutations disrupting translation initiation produce novel neutrophil elastase isoforms

Tidwell

Wechsler

Nayak

et al. 2014

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Scaling resolution of variant classification differences in ClinVar between 41 clinical laboratories through an outlier approach

et al. 2018

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ClinVar provides open access to variant classifications shared from many clinical laboratories. While most classifications are consistent across laboratories, classification differences exist. To facilitate resolution of classification differences on a large scale, clinical laboratories were encouraged to reassess outlier classifications of variants with medically significant differences. Outliers were identified by first comparing ClinVar submissions from 41 clinical laboratories to detect variants with medically significant differences between the laboratories (650 variants). Next, medically significant differences were filtered for variants with ≥3 classifications (244 variants), of which 87.6% (213 variants) had a majority consensus in ClinVar, thus allowing for identification of outlier classifications in need of reassessment. Laboratories with outlier classifications were sent a custom report and encouraged to reassess variants. Results were returned for 204 (96%) variants, of which 62.3% (127) were resolved. Of those 127, 64.6% (82) were resolved due to reassessment prompted by this study and 35.4% (45) resolved by a previously completed reassessment. This study demonstrates a scalable approach to classification resolution and capitalizes on the value of data sharing within ClinVar. These activities will help the community move toward more consistent variant classifications which will improve the care of patients with, or at risk for, genetic disorders.

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Mechanisms and clinical applications of chromosomal instability in lymphoid malignancy

et al. 2015

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SummaryLymphocytes are unique among cells in that they undergo programmed DNA breaks and translocations, but that special property predisposes them to chromosomal instability (CIN), a cardinal feature of neoplastic lymphoid cells that manifests as whole chromosome-or translocation-based aneuploidy. In several lymphoid malignancies translocations may be the defining or diagnostic markers of the diseases. CIN is a cornerstone of the mutational architecture supporting lymphoid neoplasia, though it is perhaps one of the least understood components of malignant transformation in terms of its molecular mechanisms. CIN is associated with prognosis and response to treatment, making it a key area for impacting treatment outcomes and predicting prognoses. Here we will review the types and mechanisms of CIN found in Hodgkin lymphoma, non-Hodgkin lymphoma, multiple myeloma and the lymphoid leukaemias, with emphasis placed on pathogenic mutations affecting DNA recombination, replication and repair; telomere function; and mitotic regulation of spindle attachment, centrosome function, and chromosomal segregation. We will discuss the means by which chromosome-level genetic aberrations may give rise to multiple pathogenic mutations required for carcinogenesis and conclude with a discussion of the clinical applications of CIN and aneuploidy to diagnosis, prognosis and therapy.

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Genetics of Natural Populations. Xxxii. Inbreeding and the Mutational and Balanced Genetic Loads in Natural Populations of Drosophila Pseudoobscura

Dobzhansky¹,

Spassky²,

Tidwell³

1963

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Timothy Tidwell

ELANE Mutations in Cyclic and Severe Congenital Neutropenia

Neutropenia-associated ELANE mutations disrupting translation initiation produce novel neutrophil elastase isoforms

Scaling resolution of variant classification differences in ClinVar between 41 clinical laboratories through an outlier approach

Mechanisms and clinical applications of chromosomal instability in lymphoid malignancy

Genetics of Natural Populations. Xxxii. Inbreeding and the Mutational and Balanced Genetic Loads in Natural Populations of Drosophila Pseudoobscura

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