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Fibroblast growth factors (FGFs) are involved in stimulation of angiogenesis in tumors and other pathological circumstances. Increased activity of normal skeletal muscles resulting from chronic electrical stimulation is a very potent stimulus for capillary growth but a relationship between the initiation of this angiogenesis and the involvement of autocrine growth factors has yet to be established. Although FGF expression has been reported in muscles stimulated for 3 weeks, capillary growth is underway significantly earlier, beginning around 3 days. The present experiments have therefore studied the possible involvement of basic fibroblast growth factor (FGF-2) in stimulated rat fast skeletal muscles prior to, and coincident with, capillary growth. Muscle contractions were induced via electrodes implanted in the vicinity of the peroneal nerve and maintained for 8h/day for 2, 4 or 7 days. Capillary/fiber ratio (C/F), based on staining of capillary endothelium for alkaline phosphatase, was not changed in either extensor digitorum longus (EDL) or tibialis anterior (TA) after 2 days stimulation, but increased in TA stimulated for 4 days and in both muscles after 7 days. The expression of mRNA for FGF-2, detected by ribonuclease protection assay, was decreased in all stimulated muscles compared with control or contralateral muscles; immunohistochemistry showed FGF-2 gene product in nerves and larger blood vessels but not in capillaries. There was no evidence from immunohistochemistry for up-regulation of receptors flg and bek for FGF-2. The presence of FGF-2, flg and bek in arterioles may indicate a possible role for FGF-2 in the regulation of blood flow since we have previously shown it to be a dilator of small arterioles. However, based on the lack of correlation between changes in capillary density and the expression of mRNA and protein for FGF-2 and its receptors, it is unlikely that it is directly linked with the initiation of angiogenesis resulting from chronic activity in skeletal muscles. |
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