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Differential spermatogenic response of mice to the induction of mutations by antineoplastic drugs 总被引:1,自引:0,他引:1
U H Ehling 《Mutation research》1974,26(4):285-295
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Maddalena Ravasi Arianna Scuteri Silvia PasiniMario Bossi Virginia Rodriguez MenendezDaniele Maggioni Giovanni Tredici 《Experimental cell research》2013
Over the last few years the therapeutic approach to demyelinating diseases has radically changed, strategies having been developed aimed at partnering the classic symptomatic treatments with the most advanced regenerative medicine tools. At first, the transplantation of myelinogenic cells, Schwann cells or oligodendrocytes was suggested, but the considerable technical difficulties, (poor availability, difficulties in harvesting and culturing, and the problem of rejection in the event of non-autologous sources), shifted attention towards more versatile cellular types, such as Mesenchymal Stem Cells (MSCs). Recent studies have already demonstrate both in vitro and in vivo that glially-primed MSCs (through exposure to chemical cocktails) have myelogenic abilities. In spite of a large number of papers on glially-differentiated MSCs, little is known about the ability of undifferentiated MSCs to myelinate axons and processes. Here we have demonstrated that also undifferentiated MSCs have the ability to myelinate, since they induce the myelination of rat DRG neuron processes after direct co-culturing. In this process a pivotal role is performed by the p75 receptor. 相似文献
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Uncoupling proteins, a family of proton carriers located in the inner mitochondrial membrane, have important functions in energy metabolism and free radical generation that are relevant to mitochondrial function. Five family members have been identified, UCP1-5, that have distinct tissue distributions, and differences and similarities in physiological function. Uncoupling protein 4 (UCP4) is highly expressed and has a unique function in brain. UCP4 appears to be involved with metabolism in neurons and adipocytes, but conclusions on this protein have been controversial. Here, we used Caenorhabditis elegans to explore the functions of ucp-4, particularly in fat metabolism. Our results showed that UCP4 knockdown induced an obese phenotype and impaired the insulin-like pathway, possibly via oxidative stress in C. elegans. This highlights the importance of studying the role of ucp-4 in fat metabolism. 相似文献
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