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31.
Retinal stem/progenitor cells in the ciliary marginal zone complete retinal regeneration: A study of retinal regeneration in a novel animal model 下载免费PDF全文
Our research group has extensively studied retinal regeneration in adult Xenopus laevis. However, X. laevis does not represent a suitable model for multigenerational genetics and genomic approaches. Instead, Xenopus tropicalis is considered as the ideal model for these studies, although little is known about retinal regeneration in X. tropicalis. In the present study, we showed that a complete retina regenerates at approximately 30 days after whole retinal removal. The regenerating retina was derived from the stem/progenitor cells in the ciliary marginal zone (CMZ), indicating a novel mode of vertebrate retinal regeneration, which has not been previously reported. In a previous study, we showed that in X. laevis, retinal regeneration occurs primarily through the transdifferentiation of retinal pigmented epithelial (RPE) cells. RPE cells migrate to the retinal vascular membrane and reform a new epithelium, which then differentiates into the retina. In X. tropicalis, RPE cells also migrated to the vascular membrane, but transdifferentiation was not evident. Using two tissue culture models of RPE tissues, it was shown that in X. laevis RPE culture neuronal differentiation and reconstruction of the retinal three‐dimensional (3‐D) structure were clearly observed, while in X. tropicalis RPE culture neither ßIII tubulin‐positive cells nor 3‐D retinal structure were seen. These results indicate that the two Xenopus species are excellent models to clarify the cellular and molecular mechanisms of retinal regeneration, as these animals have contrasting modes of regeneration; one mode primarily involves RPE cells and the other mode involves stem/progenitor cells in the CMZ. © 2014 Wiley Periodicals, Inc. Develop Neurobiol 74: 739–756, 2014 相似文献
32.
Kakinuma S Nishimura M Kubo A Nagai JY Amasaki Y Majima HJ Sado T Shimada Y 《Mutation research》2005,572(1-2):132-141
In agreement with Knudson's two-hit theory, recent findings indicate that the inactivation of tumor suppressor genes is not only mediated by the loss of function but also by the dominant-negative or gain-of-function activity. The former generally accompanies loss of a wild-type allele whereas in the latter a wild-type allele is retained. N-Ethyl-N-nitrosourea (ENU), which efficiently induces point mutations, reportedly leads to the development of tumors by activating ras oncogenes. Little is known about how ENU affects tumor suppressor genes and, therefore, we examined ENU-induced mutations of p53 and Ikaros in thymic lymphomas and compared these with mutations of Kras. In addition, loss of heterozygosity was examined for chromosome 11 to which both p53 and Ikaros were mapped. The frequency of point mutations in p53 and Ikaros was 30% (8/27) and 19% (5/27), respectively, comparable to that observed in Kras (33%: 9/27). In total, 14 of the 27 thymic lymphomas examined (52%) harbored mutations in at least one of these genes. One Ikaros mutation was located at the splice donor site, generating a novel splice isoform lacking zinc finger 3, Ik (F3del). Interestingly, 90% (10/11) of the tumors with point mutations retained wild-type alleles of p53 and Ikaros. Sequence analysis revealed that the most common nucleic acid substitutions were T>A (4/8) in p53, T>C (4/5) in Ikaros and G>A/T (8/9) in Kras, suggesting that the spectrum of mutations was gene dependent. These results suggest that point mutations in tumor suppressor genes without loss of the wild-type allele play an important role in ENU-induced lymphomagenesis. 相似文献
33.
Mizuguchi M Hayashi A Takeuchi M Dobashi M Mori Y Shinoda H Aizawa T Demura M Kawano K 《Proteins》2008,72(1):261-269
Senile systemic amyloidosis (SSA) is caused by amyloid deposits of wild-type transthyretin in various organs. Amyloid deposits from SSA contain large amounts of the C-terminal fragments starting near amino acid residue 50 as well as full-length transthyretin. Although a number of previous studies suggest the importance of the C-terminal fragments in the pathogenesis of SSA, little is known about the structure and aggregation properties of the C-terminal fragments of transthyretin. To understand the role of C-terminal fragments in SSA, we examined the effects of the truncation of the N-terminal portions on the structure and aggregation properties of wild-type transthyretin. The deletion mutant lacking 50 N-terminal residues was largely unfolded in terms of secondary and tertiary structure, leading to self-assembly into spherical aggregations under nearly physiological conditions. By contrast, the deletion mutant lacking 37 N-terminal residues did not have a strong tendency to aggregate, although it also adopted a largely unfolded conformation. These results suggest that global unfolding of transthyretin by proteolysis near amino acid residue 50 is an important step of self-assembly into aggregations in SSA. 相似文献
34.
C-Glucosidic ellagitannin dimers were classified as types A-C according to a putative biogenetic oligomerization mode. They were characterized by different positions of the C-C bond between the phenolic acyl unit in one monomer and the benzylic C-1 of the open-chain glucose core in the other monomer. In recent years, four C-glucosidic tannins, melasquanins A-D (18-21), have been found in the leaves of Melaleuca squarrosa Donn ex Sm. (Myrtaceae). These are characterized as a dimer (melasquanin A) of a dimerization mode (type D), and trimers (melasquanins B-D) based on spectroscopic analysis including various two-dimensional nuclear magnetic resonance (2D NMR) experiments. Melasquanins B (19) and D (21) are C-glucosidic tannin trimers with a structure containing, non-repeating condensation modes, which was hitherto unknown. 相似文献
35.
36.
Yu Kitadate David J. Jörg Moe Tokue Ayumi Maruyama Rie Ichikawa Soken Tsuchiya Eri Segi-Nishida Toshinori Nakagawa Aya Uchida Chiharu Kimura-Yoshida Seiya Mizuno Fumihiro Sugiyama Takuya Azami Masatsugu Ema Chiyo Noda Satoru Kobayashi Isao Matsuo Yoshiakira Kanai Shosei Yoshida 《Cell Stem Cell》2019,24(1):79-92.e6
37.
Kimura T Yoshida A Tabuchi Y Ikari A Takeguchi N Asano S 《Journal of biochemistry》2002,131(6):923-932
Stable cell lines expressing the gastric proton pump alpha- and/or beta-subunits were constructed. The cell line co-expressing the alpha- and beta-subunits showed inward Rb(+) transport, which was activated by Rb(+) in a concentration-dependent manner. In the alpha+beta-expressing cell line, rapid recovery of intracellular pH was also observed after acid load, indicating that this cell line transported protons outward. These ion transport activities were inhibited by a proton pump inhibitor, 2-methyl-8-(phenylmethoxy)imidazo[1,2-a]pyridine-3-acetonitrile (SCH 28080). In a membrane fraction of the alpha+beta-expressing cell line, K(+)-stimulated ATPase (K(+)-ATPase) activity and the acylphosphorylation of the alpha-subunit were observed, both of which were also inhibited by SCH 28080. The specific activity and properties of the K(+)-ATPase were comparable to those found in the native gastric proton pump. In the stable cell lines, the alpha-subunit was retained in the intracellular compartment and was unstable in the absence of the beta-subunit, but it was stabilized and reached the cell surface in the presence of the beta-subunit. On the other hand, the beta-subunit was stable and able to travel to the cell surface in the absence of the alpha-subunit. These cell lines are ideal for the structure-function study of ion transport by the gastric proton pump as well as for characterization of the cellular regulation of surface expression of the functional proton pump. 相似文献
38.
Inactivation of subtilism BPN' by N-bromosuccinimide 总被引:1,自引:0,他引:1
39.
Astrocytes with previous chronic exposure to amyloid β‐peptide fragment 1–40 suppress excitatory synaptic transmission 下载免费PDF全文
Hiroyuki Kawano Kohei Oyabu Hideaki Yamamoto Kei Eto Yuna Adaniya Kaori Kubota Takuya Watanabe Ayumi Hirano‐Iwata Junichi Nabekura Shutaro Katsurabayashi Katsunori Iwasaki 《Journal of neurochemistry》2017,143(6):624-634
40.
Y Nakayama N Nakamura S Oki M Wakabayashi Y Ishihama A Miyake N Itoh A Kurosaka 《The Journal of biological chemistry》2012,287(38):32222-32235
We previously identified a novel polypeptide N-acetylgalactosaminyltransferase (GalNAc-T) gene, which is designated Williams-Beuren syndrome chromosome region 17 (WBSCR17) because it is located in the chromosomal flanking region of the Williams-Beuren syndrome deletion. Recent genome-scale analysis of HEK293T cells treated with a high concentration of N-acetylglucosamine (GlcNAc) demonstrated that WBSCR17 was one of the up-regulated genes possibly involved in endocytosis (Lau, K. S., Khan, S., and Dennis, J. W. (2008) Genome-scale identification of UDP-GlcNAc-dependent pathways. Proteomics 8, 3294-3302). To assess its roles, we first expressed recombinant WBSCR17 in COS7 cells and demonstrated that it was N-glycosylated and localized mainly in the Golgi apparatus, as is the case for the other GalNAc-Ts. Assay of recombinant WBSCR17 expressed in insect cells showed very low activity toward typical mucin peptide substrates. We then suppressed the expression of endogenous WBSCR17 in HEK293T cells using siRNAs and observed phenotypic changes of the knockdown cells with reduced lamellipodium formation, altered O-glycan profiles, and unusual accumulation of glycoconjugates in the late endosomes/lysosomes. Analyses of endocytic pathways revealed that macropinocytosis, but neither clathrin- nor caveolin-dependent endocytosis, was elevated in the knockdown cells. This was further supported by the findings that the overexpression of recombinant WBSCR17 stimulated lamellipodium formation, altered O-glycosylation, and inhibited macropinocytosis. WBSCR17 therefore plays important roles in lamellipodium formation and the regulation of macropinocytosis as well as lysosomes. Our study suggests that a subset of O-glycosylation produced by WBSCR17 controls dynamic membrane trafficking, probably between the cell surface and the late endosomes through macropinocytosis, in response to the nutrient concentration as exemplified by environmental GlcNAc. 相似文献