PLoS ONE (Jan 2012)

Transition pattern and mechanism of B-lymphocyte precursors in regenerated mouse bone marrow after subtotal body irradiation.

  • Deping Han,
  • Mei Zhang,
  • Jun Ma,
  • Jingshen Hong,
  • Chun Chen,
  • Bingrong Zhang,
  • Luqiang Huang,
  • Wenlong Lv,
  • Liangjie Yin,
  • Amy Zhang,
  • Hengshan Zhang,
  • Zhenhuan Zhang,
  • Sadasivan Vidyasagar,
  • Paul Okunieff,
  • Lurong Zhang

DOI
https://doi.org/10.1371/journal.pone.0046560
Journal volume & issue
Vol. 7, no. 10
p. e46560

Abstract

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Little is known about the effects of ionizing radiation on the transition and the related signal transduction of progenitor B cells in the bone marrow. Thus, using an NIH Swiss mouse model, we explored the impact of ionizing radiation on the early stage of B-cell development via an examination of the transition of CLP to pro-B to pre-B cells within bone marrow as a function of radiation doses and times. Our results showed that while the total number of bone marrow lymphoid cells at different stages were greatly reduced by subtotal body irradiation (sub-TBI), the surviving cells continued to transition from common lymphoid progenitors to pro-B and then to pre-B in a reproducible temporal pattern. The rearrangement of the immunoglobulin heavy chain increased significantly 1-2 weeks after irradiation, but no change occurred after 3-4 weeks. The rearrangement of the immunoglobulin light chain decreased significantly 1-2 weeks after sub-TBI but increased dramatically after 3-4 weeks. In addition, several key transcription factors and signaling pathways were involved in B-precursor transitions after sub-TBI. The data indicate that week 2 after irradiation is a critical time for the transition from pro-B cells to pre-B cells, reflecting that the functional processes for different B-cell stages are well preserved even after high-dose irradiation.