Aging and impaired hematopoiesis

Abstract

기능이상과 같은 것이다. 이와 반대로 마모(wear and tear) Aging is an universal phenomenon and irreversible syndrome, and its damage occurs to molecules (DNA, proteins, and lipids), to cells, and to organs. Hematopoietic tissue intrinsically has a very high turnover rate; nonetheless, it is not protected from age-related insults. Aging results in the overproduction of myeloid cells, which leads to a pro-inflammatory environment. The selective expansion of a clonal subtype of intrinsically myeloid-biased hematopoietic stem cells (HSCs) is a central component of hematopoietic aging. In the present study, the stress-response and inflammatory genes were up-regulated with age whereas chromatin remodeling and DNA repair genes were down-regulated. Accumulated DNA damage, loss of DNA repair, and epigenetic deregulation are the main molecular mechanisms underlying age-dependent HSC decline. The most profound effect is seen in the adaptive immune system with a marked decline of lymphoid function in the elderly. Mitochondrial dysfunction and mitochondrial DNA mutation are another important contributor to the aging of HSCs, which have been regarded as a part of the mitochondrial theory of aging. Generation of reactive oxygen species during mitochondrial adenosine triphosphate generation, results in damage to mitochondria and mitochondrial DNA, the latter leading to deleterious mutations that directly caused the functional decline of human. Studies have pointed toward intrinsic deficits in HSC function, and epigenetic deregulation as the important contributing factors behind hematopoietic decline and malignancy during aging. Aging-related changes such as hematopoiesis are reflected by a decline in marrow cellularity, increased risk of anemia, marrow failure syndrome, and myeloproliferative neoplasms as well as a decline of adaptive immunity.