Angiogenic heterogeneity: regulation of neoplastic angiogenesis by the organ microenvironment.

نویسنده

  • I J Fidler
چکیده

Cells cannot survive if they lack adequate oxygen and nutrient supply or cannot dispose of toxic molecules. Oxygen can diffuse from capillaries for only 150–200 m. When distances of cells from a blood supply exceed this, cell death follows (1,2). Thus, the growth and survival of tumor masses beyond 0.5 mm in diameter require neovascularization, i.e., angiogenesis (3). In this issue of the Journal, Achilles et al. (4) injected human liposarcoma cells (tumor fragments or cells) into the subcutis of severe combined immunodeficient mice. The different tumor fragments and liposarcoma cells gave rise to fast-growing, slowgrowing, or small dormant tumors. The growth rate of the tumors correlated directly with microvessel density and correlated inversely with tumor cell apoptosis. The authors concluded that human liposarcomas are heterogeneous for induction of angiogenesis and suggest that the failure to induce angiogenesis can be responsible for the failure to xenotransplant human neoplasms into immunodeficient mice (1). Achilles et al. (4) have provided one more illustration of the “seed and soil” hypothesis. In 1889, Paget (5) proposed that the growth and spread of cancers occurred when certain favored tumor cells (seed) had a special affinity for the growth milieu provided by specific tissues or organs (soil). A current definition of the seed and soil hypothesis consists of two principles. First, neoplasms are heterogeneous and consist of cells with different biologic properties; second, the outcome of cancer growth and spread depends on multiple interactions of tumor cells with host homeostatic factors (6). By the time of diagnosis, malignant neoplasms are biologically heterogeneous and contain multiple subpopulations of cells with different properties, including differences in morphology, growth rates, karyotypes, metabolic characteristics, antigenic or immunogenic potential, production of extracellular matrix proteins, cell surface receptors, adhesion molecules, hormone receptors, drug and radiation sensitivities, angiogenic potential, invasiveness, and the ability to metastasize (6). Angiogenic heterogeneity within a single tumor (zonal or intralesional) between different metastases even in a single organ (interlesional) and different neoplasms of the same histologic type is also documented (7,8). For example, the implantation of murine or human cancer cells into orthotopic sites of nude mice produces progressively growing local tumors. The expression of proangiogenic molecules (and, therefore, vessel density) in the lesions is zonal, i.e., intralesional heterogeneity. Small tumors (3–4 mm in diameter) express more basic fibroblast growth factor (bFGF) and interleukin 8 (IL-8) than large tumors (>10 mm in diameter), whereas more vascular endothelial growth factor (VEGF) is expressed in large tumors. Immunostaining showed a heterogeneous distribution of angiogenic factors within the tumor; expression of bFGF and IL-8 was highest on the periphery of a large tumor, where cell division is maximum. VEGF expression was higher in the center of the tumor (7). Similarly, heterogeneous dependence on angiogenesis was reported recently for cell subpopulations isolated from human melanoma xenografts and cells from teratomas with differential expression of hypoxia-inducing factor-1 (8). Heterogeneity of blood vessel distribution in surgical specimens of human cancers is well documented (9,10). Benign neoplasms are sparsely vascularized and tend to grow slowly, whereas malignant neoplasms are highly vascularized and fast growing (9). The distribution of vessels in a tumor, however, is not uniform, and Weidner et al. (10) cautioned that, to predict the aggressive nature of human neoplasms, one must determine the mean vessel density (MVD) in the “areas of most intense neovascularization,” i.e., tumors exhibit intralesional or zonal heterogeneity for MVD. Similarly, the expression of proangiogenic molecules in surgical specimens of human colon carcinoma was determined by in situ hybridization technique. Matrix metalloproteinase-9 and bFGF were overexpressed at the periphery of the tumor (leading edge), where cells were rapidly dividing, whereas VEGF expression was higher in the center of the lesions (11). The extent of angiogenic heterogeneity in malignant neoplasms is regulated by the organ microenvironment. For example, human renal carcinoma cells implanted into the kidney of nude mice produce a high incidence of lung metastasis, whereas those implanted subcutaneously are not metastatic (12). Histopathologic examination of the tissues revealed that the tumors growing in the subcutis of nude mice had few blood vessels, whereas the tumors in the kidney had many (12). The subcutaneous (or intramuscular) tumors had a statistically significant lower level of messenger RNA transcripts for bFGF than the tumors in the kidney, whereas the expression of interferon beta (which diminishes transcription of bFGF) was high in epithelial cells and fibroblasts surrounding the subcutaneous tumors and not detected in or around tumors growing in the kidney (13). The production of IL-8 by melanoma cells is regulated by complex interactions with keratinocytes in the skin (14). IL-8 expression can be increased by coculturing melanoma cells with keratinocytes (skin) and inhibited by coculturing melanoma cells with hepatocytes (liver) (15). The organ microenvironment also influences the expression of VEGF/vascular permeability factor. Human gastric cancer cells were implanted into orthotopic (stomach) and ectopic (subcutaneous) organs of nude mice. Tumors in the stomach were highly vascularized, expressed high

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عنوان ژورنال:
  • Journal of the National Cancer Institute

دوره 93 14  شماره 

صفحات  -

تاریخ انتشار 2001