Mutations in TERT, the Gene for Telomerase Reverse Transcriptase, in Aplastic Anemia
Hiroki Yamaguchi, M.D., Rodrigo T. Calado, M.D., Ph.D., Hinh Ly, Ph.D., Sachiko Kajigaya, Ph.D., Gabriela M. Baerlocher, M.D., Stephen J. Chanock, M.D., Peter M. Lansdorp, M.D., Ph.D., and Neal S. Young, M.D.
Background Mutations in TERC, the gene for the RNA componentof telomerase, cause short telomeres in congenital aplasticanemia and in some cases of apparently acquired hematopoieticfailure. We investigated whether mutations in genes for othercomponents of telomerase also occur in aplastic anemia.
Methods We screened blood or marrow cells from 124 patientswith apparently acquired aplastic anemia and 282 control subjectsfor sequence variations in the TERT, DKC1, NHP2, and NOP10 genes;an additional 81 patients and 246 controls were examined forgenetic variations in TERT. Telomere lengths and the telomeraseactivity of peripheral-blood leukocytes were evaluated in patientscarrying genetic variants. Identified mutations were transfectedinto telomerase-deficient cell lines to examine their effectsand their mechanism of action on telomerase function.
Results Five heterozygous, nonsynonymous mutations (which causean amino acid change in the corresponding protein) were identifiedin TERT, the gene for the telomerase reverse transcriptase catalyticenzyme, among seven unrelated patients. Leukocytes from thesepatients had short telomeres and low telomerase enzymatic activity.In three of these patients, the mutation was also detected inbuccal mucosa cells. Family members carrying the mutations alsohad short telomeres and reduced telomerase activity but no evidenthematologic abnormality. The results of coexpression of wild-typeTERT and TERT with aplastic anemia–associated mutationsin a telomerase-deficient cell line suggested that haploinsufficiencywas the mechanism of telomere shortening due to TERT mutations.
Conclusions Heterozygous mutations in the TERT gene impair telomeraseactivity by haploinsufficiency and may be risk factors for marrowfailure.
Source Information
From the Hematology Branch, National Heart, Lung, and Blood Institute (H.Y., R.T.C., S.K., N.S.Y.), and the Pediatric Oncology Branch, National Cancer Institute (S.J.C.), National Institutes of Health, Bethesda, Md.; the Experimental Pathology Division, Department of Pathology and Laboratory Medicine, Emory University, Atlanta (H.L.); and the Terry Fox Laboratory, BC Cancer Research Centre (G.M.B., P.M.L.), and the Department of Medicine, University of British Columbia (P.M.L.) — both in Vancouver, B.C., Canada. Drs. Yamaguchi, Calado, and Ly contributed equally to this article.
Address reprint requests to Dr. Young at the Hematology Branch, National Heart, Lung, and Blood Institute, National Institutes of Health, 10 Center Dr., Bldg. 10/CRC, Rm. 3E-5140, Bethesda, MD 20892-1202, or at youngns{at}mail.nih.gov.
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