Familial Clonal Hematopoiesis in a Long Telomere Syndrome.

DeBoy, Emily A; Tassia, Michael G; Schratz, Kristen E; Yan, Stephanie M; Cosner, Zoe L; McNally, Emily J; Gable, Dustin L; Xiang, Zhimin; Lombard, David B; Antonarakis, Emmanuel S; Gocke, Christopher D; McCoy, Rajiv C; Armanios, Mary

DeBoy, Emily A; Tassia, Michael G; Schratz, Kristen E; Yan, Stephanie M; Cosner, Zoe L; McNally, Emily J; Gable, Dustin L; Xiang, Zhimin; Lombard, David B; Antonarakis, Emmanuel S; Gocke, Christopher D; McCoy, Rajiv C; Armanios, Mary.

Afiliação

DeBoy EA; From the Departments of Oncology (E.A.D., K.E.S., Z.L.C., E.J.M., Z.X., E.S.A., C.D.G., M.A.), Pathology (C.D.G., M.A.), and Genetic Medicine (M.A.), the Medical Scientist Training Program (E.A.D.), the Telomere Center (E.A.D., K.E.S., Z.L.C., E.J.M., Z.X., M.A.), and Sidney Kimmel Comprehensive Can
Tassia MG; From the Departments of Oncology (E.A.D., K.E.S., Z.L.C., E.J.M., Z.X., E.S.A., C.D.G., M.A.), Pathology (C.D.G., M.A.), and Genetic Medicine (M.A.), the Medical Scientist Training Program (E.A.D.), the Telomere Center (E.A.D., K.E.S., Z.L.C., E.J.M., Z.X., M.A.), and Sidney Kimmel Comprehensive Can
Schratz KE; From the Departments of Oncology (E.A.D., K.E.S., Z.L.C., E.J.M., Z.X., E.S.A., C.D.G., M.A.), Pathology (C.D.G., M.A.), and Genetic Medicine (M.A.), the Medical Scientist Training Program (E.A.D.), the Telomere Center (E.A.D., K.E.S., Z.L.C., E.J.M., Z.X., M.A.), and Sidney Kimmel Comprehensive Can
Yan SM; From the Departments of Oncology (E.A.D., K.E.S., Z.L.C., E.J.M., Z.X., E.S.A., C.D.G., M.A.), Pathology (C.D.G., M.A.), and Genetic Medicine (M.A.), the Medical Scientist Training Program (E.A.D.), the Telomere Center (E.A.D., K.E.S., Z.L.C., E.J.M., Z.X., M.A.), and Sidney Kimmel Comprehensive Can
Cosner ZL; From the Departments of Oncology (E.A.D., K.E.S., Z.L.C., E.J.M., Z.X., E.S.A., C.D.G., M.A.), Pathology (C.D.G., M.A.), and Genetic Medicine (M.A.), the Medical Scientist Training Program (E.A.D.), the Telomere Center (E.A.D., K.E.S., Z.L.C., E.J.M., Z.X., M.A.), and Sidney Kimmel Comprehensive Can
McNally EJ; From the Departments of Oncology (E.A.D., K.E.S., Z.L.C., E.J.M., Z.X., E.S.A., C.D.G., M.A.), Pathology (C.D.G., M.A.), and Genetic Medicine (M.A.), the Medical Scientist Training Program (E.A.D.), the Telomere Center (E.A.D., K.E.S., Z.L.C., E.J.M., Z.X., M.A.), and Sidney Kimmel Comprehensive Can
Gable DL; From the Departments of Oncology (E.A.D., K.E.S., Z.L.C., E.J.M., Z.X., E.S.A., C.D.G., M.A.), Pathology (C.D.G., M.A.), and Genetic Medicine (M.A.), the Medical Scientist Training Program (E.A.D.), the Telomere Center (E.A.D., K.E.S., Z.L.C., E.J.M., Z.X., M.A.), and Sidney Kimmel Comprehensive Can
Xiang Z; From the Departments of Oncology (E.A.D., K.E.S., Z.L.C., E.J.M., Z.X., E.S.A., C.D.G., M.A.), Pathology (C.D.G., M.A.), and Genetic Medicine (M.A.), the Medical Scientist Training Program (E.A.D.), the Telomere Center (E.A.D., K.E.S., Z.L.C., E.J.M., Z.X., M.A.), and Sidney Kimmel Comprehensive Can
Lombard DB; From the Departments of Oncology (E.A.D., K.E.S., Z.L.C., E.J.M., Z.X., E.S.A., C.D.G., M.A.), Pathology (C.D.G., M.A.), and Genetic Medicine (M.A.), the Medical Scientist Training Program (E.A.D.), the Telomere Center (E.A.D., K.E.S., Z.L.C., E.J.M., Z.X., M.A.), and Sidney Kimmel Comprehensive Can
Antonarakis ES; From the Departments of Oncology (E.A.D., K.E.S., Z.L.C., E.J.M., Z.X., E.S.A., C.D.G., M.A.), Pathology (C.D.G., M.A.), and Genetic Medicine (M.A.), the Medical Scientist Training Program (E.A.D.), the Telomere Center (E.A.D., K.E.S., Z.L.C., E.J.M., Z.X., M.A.), and Sidney Kimmel Comprehensive Can
Gocke CD; From the Departments of Oncology (E.A.D., K.E.S., Z.L.C., E.J.M., Z.X., E.S.A., C.D.G., M.A.), Pathology (C.D.G., M.A.), and Genetic Medicine (M.A.), the Medical Scientist Training Program (E.A.D.), the Telomere Center (E.A.D., K.E.S., Z.L.C., E.J.M., Z.X., M.A.), and Sidney Kimmel Comprehensive Can
McCoy RC; From the Departments of Oncology (E.A.D., K.E.S., Z.L.C., E.J.M., Z.X., E.S.A., C.D.G., M.A.), Pathology (C.D.G., M.A.), and Genetic Medicine (M.A.), the Medical Scientist Training Program (E.A.D.), the Telomere Center (E.A.D., K.E.S., Z.L.C., E.J.M., Z.X., M.A.), and Sidney Kimmel Comprehensive Can
Armanios M; From the Departments of Oncology (E.A.D., K.E.S., Z.L.C., E.J.M., Z.X., E.S.A., C.D.G., M.A.), Pathology (C.D.G., M.A.), and Genetic Medicine (M.A.), the Medical Scientist Training Program (E.A.D.), the Telomere Center (E.A.D., K.E.S., Z.L.C., E.J.M., Z.X., M.A.), and Sidney Kimmel Comprehensive Can

N Engl J Med ; 388(26): 2422-2433, 2023 Jun 29.

Article em En | MEDLINE | ID: mdl-37140166

ABSTRACT

ABSTRACT

BACKGROUND:

Telomere shortening is a well-characterized cellular aging mechanism, and short telomere syndromes cause age-related disease. However, whether long telomere length is advantageous is poorly understood.

METHODS:

We examined the clinical and molecular features of aging and cancer in persons carrying heterozygous loss-of-function mutations in the telomere-related gene POT1 and noncarrier relatives.

RESULTS:

A total of 17 POT1 mutation carriers and 21 noncarrier relatives were initially included in the study, and a validation cohort of 6 additional mutation carriers was subsequently recruited. A majority of the POT1 mutation carriers with telomere length evaluated (9 of 13) had long telomeres (>99th percentile). POT1 mutation carriers had a range of benign and malignant neoplasms involving epithelial, mesenchymal, and neuronal tissues in addition to B- and T-cell lymphoma and myeloid cancers. Five of 18 POT1 mutation carriers (28%) had T-cell clonality, and 8 of 12 (67%) had clonal hematopoiesis of indeterminate potential. A predisposition to clonal hematopoiesis had an autosomal dominant pattern of inheritance, as well as penetrance that increased with age; somatic DNMT3A and JAK2 hotspot mutations were common. These and other somatic driver mutations probably arose in the first decades of life, and their lineages secondarily accumulated a higher mutation burden characterized by a clocklike signature. Successive generations showed genetic anticipation (i.e., an increasingly early onset of disease). In contrast to noncarrier relatives, who had the typical telomere shortening with age, POT1 mutation carriers maintained telomere length over the course of 2 years.

CONCLUSIONS:

POT1 mutations associated with long telomere length conferred a predisposition to a familial clonal hematopoiesis syndrome that was associated with a range of benign and malignant solid neoplasms. The risk of these phenotypes was mediated by extended cellular longevity and by the capacity to maintain telomeres over time. (Funded by the National Institutes of Health and others.).

Assuntos

Envelhecimento; Hematopoiese Clonal; Neoplasias; Telômero; Humanos; Envelhecimento/genética; Hematopoiese Clonal/genética; Heterozigoto; Mutação com Perda de Função/genética; Mutação; Neoplasias/genética; Complexo Shelterina/genética; Síndrome; Telômero/genética; Telômero/fisiologia; Homeostase do Telômero/genética; Proteínas de Ligação a Telômeros/genética

Texto completo

Imprimir

XML

PubMed Links

Buscar no Google

Texto completo: 1 Coleções: 01-internacional Base de dados: MEDLINE Assunto principal: Envelhecimento / Telômero / Hematopoiese Clonal / Neoplasias Limite: Humans Idioma: En Revista: N Engl J Med Ano de publicação: 2023 Tipo de documento: Article

Texto completo

Imprimir

XML

PubMed Links

Buscar no Google