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291.
Xiaoni Liu Vasily Kerov Fran?oise Haeseleer Anurima Majumder Nikolai Artemyev Sheila A Baker Amy Lee 《Channels (Austin, Tex.)》2013,7(6):514-523
Mutations in the gene encoding Cav1.4, CACNA1F, are associated with visual disorders including X-linked incomplete congenital stationary night blindness type 2 (CSNB2). In mice lacking Cav1.4 channels, there are defects in the development of “ribbon” synapses formed between photoreceptors (PRs) and second-order neurons. However, many CSNB2 mutations disrupt the function rather than expression of Cav1.4 channels. Whether defects in PR synapse development due to altered Cav1.4 function are common features contributing to the pathogenesis of CSNB2 is unknown. To resolve this issue, we profiled changes in the subcellular distribution of Cav1.4 channels and synapse morphology during development in wild-type (WT) mice and mouse models of CSNB2. Using Cav1.4-selective antibodies, we found that Cav1.4 channels associate with ribbon precursors early in development and are concentrated at both rod and cone PR synapses in the mature retina. In mouse models of CSNB2 in which the voltage-dependence of Cav1.4 activation is either enhanced (Cav1.4I756T) or inhibited (CaBP4 KO), the initial stages of PR synaptic ribbon formation are largely unaffected. However, after postnatal day 13, many PR ribbons retain the immature morphology. This synaptic abnormality corresponds in severity to the defect in synaptic transmission in the adult mutant mice, suggesting that lack of sufficient mature synapses contributes to vision impairment in Cav1.4I756T and CaBP4 KO mice. Our results demonstrate the importance of proper Cav1.4 function for efficient PR synapse maturation, and that dysregulation of Cav1.4 channels in CSNB2 may have synaptopathic consequences. 相似文献
292.
Herman Ehrlich Yury N. Elkin Alexandr A. Artoukov Valentin A. Stonik Peter P. Safronov Vasily V. Bazhenov Denis V. Kurek Valery P. Varlamov Ren�� Born Heike Meissner Gert Richter 《Marine biotechnology (New York, N.Y.)》2011,13(3):402-410
Unique skeletal formations of marine invertebrates, including representatives of Echinodermata, have the unique potential to serve as templates for bio-inspired materials chemistry, biomimetics, and materials science. The sand dollar Scaphechinus mirabilis (Agassiz, 1983) is widely distributed in the northwest of the Pacific Ocean from southern Japan to the Aleutian Islands. This animal is the main source of naphtochinone-based substances. These compounds have recently drawn medical attention for their use as cardiological and ophthalmological drugs. Unfortunately, after extraction of the naphtochinones, the residual skeletons and spines of the sand dollars were usually discarded. Here, we report the first method for the preparation of nanostructurally organized spines of S. mirabilis, using a simple enzymatic and hydrogen peroxide-based treatment. Application of this method opens the way for development of non-wasteful environmentally clean technology of sand dollars as well-known industrial marine invertebrates. 相似文献