Myoglobin is a cytoplasmic hemoprotein that is restricted to cardiomyocytes and oxidative skeletal myofibers and facilitates oxygen delivery during periods of high metabolic demand. Myoglobin content in skeletal muscle increases in response to hypoxic conditions. However, we previously reported that myoglobin-null mice are viable and fertile. In the present study, we define important functional, cellular, and molecular compensatory adaptations in the absence of myoglobin. Mice without myoglobin manifest adaptations in skeletal muscle that include a fiber type transition (type I to type II in the soleus muscle), increased expression of the hypoxia-inducible transcription factors hypoxia-inducible factor (HIF)-1alpha and HIF-2 (endothelial PAS domain protein), stress proteins such as heat shock protein 27, and the angiogenic growth factor vascular endothelial growth factor (soleus muscle), as well as increased nitric oxide metabolism (extensor digitorum longus). The resulting changes in angiogenesis, nitric oxide metabolism, and vasomotor regulation are likely to account for preserved exercise capacity of animals lacking myoglobin. These results demonstrate that mammalian organisms are capable of a broad spectrum of adaptive responses that can compensate for a potentially serious defect in cellular oxygen transport.
We conclude that these peptides block tumor but not normal cell growth likely by blocking oncogenic ras-p21-induced phosphorylation of JNK, an essential step on the oncogenic ras-p21-protein pathway. These peptides are therefore promising as possible anti-tumor agents.
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