The contribution of stem and progenitor cell dysfunction and depletion in normal aging remains incompletely understood. We explored this concept in the Klotho mouse model of accelerated aging. Analysis of various tissues and organs from young Klotho mice revealed a decrease in stem cell number and an increase in progenitor cell senescence. Because klotho is a secreted protein, we postulated that klotho might interact with other soluble mediators of stem cells. We found that klotho bound to various Wnt family members. In a cell culture model, the Wnt-klotho interaction resulted in the suppression of Wnt biological activity. Tissues and organs from klotho-deficient animals showed evidence of increased Wnt signaling, and ectopic expression of klotho antagonized the activity of endogenous and exogenous Wnt. Both in vitro and in vivo, continuous Wnt exposure triggered accelerated cellular senescence. Thus, klotho appears to be a secreted Wnt antagonist and Wnt proteins have an unexpected role in mammalian aging.
Epidermal integrity is a complex process established during embryogenesis and maintained throughout the organism lifespan by epithelial stem cells. While Wnt regulates normal epithelial stem cell renewal, aberrant Wnt signaling can contribute to cancerous growth. Here, we explored the consequences of persistent expressing Wnt1 in an epidermal compartment that includes the epithelial stem cells. Surprisingly, Wnt caused the rapid growth of the hair follicles, but this was followed by epithelial cell senescence, disappearance of the epidermal stem cell compartment, and progressive hair loss. While Wnt1 induced the activation of β-catenin and the mTOR pathway, both hair follicle hyperproliferation and stem cell exhaustion were strictly dependent on mTOR function. These findings suggest that whereas activation of β-catenin contributes to tumor growth, epithelial stem cells may be endowed with a protective mechanism that results in cell senescence upon the persistent stimulation of proliferative pathways that activate mTOR, ultimately suppressing tumor formation.
Tumor progression and metastasis depend on the ability of cancer cells to initiate angiogenesis and ensure delivery of oxygen, nutrients, and growth factors to rapidly dividing transformed cells and provide access to the systemic circulation. In addition to well established growth factors and inflammatory mediators that promote capillary sprouting and endothelial cell growth and migration, an emerging body of evidence supports a previously unrecognized function for axon guidance molecules in regulation of blood vessel development. Here we show that semaphorin 4D (Sema4D), a protein originally shown to regulate axonal growth cone guidance in the developing central nervous system through its receptor, plexin-B1, is highly expressed in cell lines derived from head and neck squamous cell carcinomas (HNSCCs) at both the protein and message level. Immunohistochemical analysis of a large collection of HNSCC specimens revealed high levels of Sema4D in a cell surface pattern in invading islands of transformed epithelial cells, but not in normal and noninvasive dysplastic epithelium. A similar pattern was observed in malignant cells from prostate, colon, breast, and lung cancer tissues. When shed from HNSCC cells, Sema4D stimulates endothelial cell migration, which can be prevented by Sema4D-blocking antibodies and by Sema4D knockdown. Furthermore, knocking down Sema4D by lentiviral expression of Sema4D shRNA reduces dramatically the size and vascularity of HNSCC tumor xenografts. These findings indicate that expression of Sema4D is a frequently used strategy by which a wide variety of carcinomas may promote angiogenesis, and therefore is a possible therapeutic target for the treatment of these malignancies.head and neck cancer ͉ c-Met protein ͉ plexin ͉ chemotaxis ͉ endothelium
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