International Journal of Cell Cloning, Vol 7, 203-212, Copyright © 1989 by AlphaMed Press
Radiobiological properties of human hematopoietic and stromal marrow cells
J Laver
Bone Marrow Transplantation Service, Memorial Sloan-Kettering Cancer Center, New York, New York.
Effective hematopoiesis requires the presence of normal hematopoietic
progenitors and a supporting microenvironment. Impairment of one of these
marrow compartments will result in marrow failure. Total body irradiation
(TBI) followed by bone marrow transplantation (BMT) is becoming an
established modality in the treatment of malignant hematopoietic disorders.
The objectives of irradiation are to ablate host marrow and immunocompetent
cells as well as to eradicate neoplastic cells. Although leukemic cells are
thought to have the same radiobiological characteristics as their normal
counterparts, it has been proposed recently that some leukemic cells may
possess a substantial capacity to repair sublethal radiation damage. Thus,
radiation administered at different dose rates or fractions might differ in
its ability to ablate malignant cells and consequently affect the relapse
rate in the post-transplant period. Different modes of irradiation can also
affect the proliferative capacity and the hematopoietic supportive function
of the marrow microenvironment. Bone marrow ablation must be accomplished
with the least possible damage to other tissues. Impairment of the
proliferative capacity of the marrow microenvironment or its hematopoietic
supportive function can result in graft failure in the post-transplant
period. In this review, we discuss the radiobiological characteristics of
normal hematopoietic, leukemic and stromal cells and their relevance to
bone marrow transplantation.
