Short Telomere Syndromes Cause a Primary T Cell Immunodeficiency

Overview

Journal J Clin Invest

Specialty General Medicine

Date 2018 Sep 5

PMID 30179220

Citations 65

Authors

Christa L Wagner

Vidya Sagar Hanumanthu

C Conover Talbot Jr

Roshini S Abraham

David Hamm

Dustin L Gable

Christopher G Kanakry

Carolyn D Applegate

Janet Siliciano

J Brooks Jackson

Stephen Desiderio

Jonathan K Alder

Leo Luznik

Mary Armanios

Affiliations

Soon will be listed here.

Abstract

The mechanisms that drive T cell aging are not understood. We report that children and adult telomerase mutation carriers with short telomere length (TL) develop a T cell immunodeficiency that can manifest in the absence of bone marrow failure and causes life-threatening opportunistic infections. Mutation carriers shared T cell-aging phenotypes seen in adults 5 decades older, including depleted naive T cells, increased apoptosis, and restricted T cell repertoire. T cell receptor excision circles (TRECs) were also undetectable or low, suggesting that newborn screening may identify individuals with germline telomere maintenance defects. Telomerase-null mice with short TL showed defects throughout T cell development, including increased apoptosis of stimulated thymocytes, their intrathymic precursors, in addition to depleted hematopoietic reserves. When we examined the transcriptional programs of T cells from telomerase mutation carriers, we found they diverged from older adults with normal TL. Short telomere T cells upregulated DNA damage and intrinsic apoptosis pathways, while older adult T cells upregulated extrinsic apoptosis pathways and programmed cell death 1 (PD-1) expression. T cells from mice with short TL also showed an active DNA-damage response, in contrast with old WT mice, despite their shared propensity to apoptosis. Our data suggest there are TL-dependent and TL-independent mechanisms that differentially contribute to distinct molecular programs of T cell apoptosis with aging.

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