increased hematopoietic stem cells/hematopoietic progenitor cells measured as endogenous spleen colonies in radiation-induced adaptive response in mice (yonezawa effect)

increased hematopoietic stem cells/hematopoietic progenitor cells measured as endogenous spleen colonies in radiation-induced adaptive response in mice (yonezawa effect)

;Bing Wang;Kaoru Tanaka;Yasuharu Ninomiya;Kouichi Maruyama;Guillaume Varès;Takanori Katsube;Masahiro Murakami;Cuihua Liu;Akira Fujimori;Kazuko Fujita;Qiang Liu;Kiyomi Eguchi-Kasai;Mitsuru Nenoi
journal of exercise rehabilitation 2018 Vol. 16 pp. -
212
wang2018dose-responseincreased

Abstract

The existence of radiation-induced adaptive response (AR) was reported in varied biosystems. In mice, the first in vivo AR model was established using X-rays as both the priming and the challenge doses and rescue of bone marrow death as the end point. The underlying mechanism was due to the priming radiation-induced resistance in the blood-forming tissues. In a series of investigations, we further demonstrated the existence of AR using different types of ionizing radiation (IR) including low linear energy transfer (LET) X-rays and high LET heavy ion. In this article, we validated hematopoietic stem cells/hematopoietic progenitor cells (HSCs/HPCs) measured as endogenous colony-forming units-spleen (CFU-S) under AR inducible and uninducible conditions using combination of different types of IR. We confirmed the consistency of increased CFU-S number change with the AR inducible condition. These findings suggest that AR in mice induced by different types of IR would share at least in part a common underlying mechanism, the priming IR-induced resistance in the blood-forming tissues, which would lead to a protective effect on the HSCs/HPCs and play an important role in rescuing the animals from bone marrow death. These findings provide a new insight into the mechanistic study on AR in vivo.

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