Composition and function of the hemopoietic microenvironment in human myeloid leukemia

Abstract

In normal adult mammals, blood cell production, hemopoiesis, takes place within the medullary cavity. There, hemopoietic cell proliferation and differentiation are regulated by a network of stromal/accessory cells and their products (ie cytokines and extracellular matrix molecules), known as the hemopoietic microenvironment. Recent in vitro studies indicate that both cell composition and functional abnormalities of the hemopoletic microenvironment are present in a proportion of patients with myeloid leukemia, both chronic (CML) and acute (AML). Cell composition abnormalities have been primarily observed in a subset of patients with AML; these abnormalities include reduced numbers of fibroblast progenitors and, in some cases, reduced numbers of macrophages and adipocytes. In terms of function, it has been shown that the marrow stromal cells from a significant number of both CML and AML patients, possess a deficient hemopoletic supportive capacity in vitro. This seems to be related to the presence of functionally abnormal, malignant macrophages. The mechanisms by which these macrophages alter the hemopoietic function of the marrow stroma, as a whole, are still not fully understood. Whereas in AML, a macrophage-derived soluble inhibitory activity (containing tumor necrosis factor alpha) has been described; in CML, a direct, macrophage-mediated cell-to-cell contact mechanism for hemopoietic inhibition seems to be involved. To date, however, it is not clear whether the abnormalities in the hemopoietic microenvironment are secondary to myeloid leukemia or if they precede clinical CML/AML. Furthermore, it is not known to what extent the functional abnormalities observed in vitro contribute to the hematologic dysfunction that characterizes myeloid leukemia and to the in vivo progression of the disease.