Idiopathic Pulmonary Fibrosis Clinical Trial
Official title:
Male Hormones for Telomere Related Diseases
Decrease in blood cell counts due to deficient bone marrow function, called bone marrow failure, as well as some lung diseases, called idiopathic pulmonary fibrosis, can be caused by genetic defects in telomere biology genes, eventually causing telomere erosion. These disorders are collectively termed "telomeropathies". There is evidence that male hormones may improve blood cell counts in marrow failure, and these hormones are able to stimulate telomerase function in hematopoietic cells in vitro. We propose this study to the use of male hormone in patients with aplastic anemia and pulmonary fibrosis associated with defects in telomeres.
Telomeres are repeated nucleotide sequences of non-coding DNA at the ends of chromosomes that have protective functions and avoid chromosomes recombinations and fusions. Loss-of-function mutations in genes of the telomerase complex, a enzyme responsible for maintaining telomere length, has been associated with bone marrow failures, notedly mutations in DKC1 gene, detected in a rare inherited form of marrow aplasia, called dyskeratosis congenita. These findings implicated telomerase dysfunction and shortening telomere length in failed hematopoiesis. In family members of probands with aplastic anemia, marrow aplasia and telomerase mutations also have been observed and associated to varying degrees of cytopenias, IPF and/or cirrhosis. Moreover, patients with varying degrees of cytopenias, with significant family history for cytopenias, IPF and/or cirrhosis, have been identified with very short telomeres and some mutations in telomerase complex genes. Additionally, telomere length has been associated with human cancer. In vitro studies suggest that telomere length could be modulated with sex hormones. Normal lymphocytes and human bone marrow progenitor cells exposed to androgens increased telomerase activity in vitro, and in individuals with telomerase mutations (TERT) androgens increased telomerase activity.This could be the explanation for the hematologic improvement observed in some aplastic anemia patients treated over 40 years ago with male hormones. Therefore, we hypothesize that androgens therapy might modulate telomere attrition in vivo and ameliorate progression or reverse the clinical consequences of shortening telomere length, and we propose androgens therapy in patients with cytopenias and/or IPF with a short age adjusted telomere length, with or without telomerase gene mutations. The primary biologic endpoint will be the reduction of telomere attrition over time compared to known rates of telomere erosion in normal individuals and in those who carry mutation in the telomerase genes. Secondary endpoints will be tolerability of nandrolone decanoate over two years, improvement in blood counts and/or pulmonary function. ;
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