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Walko G Vukasinovic N Gross K Fischer I Sibitz S Fuchs P Reipert S Jungwirth U Berger W Salzer U Carugo O Castañón MJ Wiche G 《PLoS genetics》2011,7(12):e1002396
Autosomal recessive mutations in the cytolinker protein plectin account for the multisystem disorders epidermolysis bullosa simplex (EBS) associated with muscular dystrophy (EBS-MD), pyloric atresia (EBS-PA), and congenital myasthenia (EBS-CMS). In contrast, a dominant missense mutation leads to the disease EBS-Ogna, manifesting exclusively as skin fragility. We have exploited this trait to study the molecular basis of hemidesmosome failure in EBS-Ogna and to reveal the contribution of plectin to hemidesmosome homeostasis. We generated EBS-Ogna knock-in mice mimicking the human phenotype and show that blistering reflects insufficient protein levels of the hemidesmosome-associated plectin isoform 1a. We found that plectin 1a, in contrast to plectin 1c, the major isoform expressed in epidermal keratinocytes, is proteolytically degraded, supporting the notion that degradation of hemidesmosome-anchored plectin is spatially controlled. Using recombinant proteins, we show that the mutation renders plectin's 190-nm-long coiled-coil rod domain more vulnerable to cleavage by calpains and other proteases activated in the epidermis but not in skeletal muscle. Accordingly, treatment of cultured EBS-Ogna keratinocytes as well as of EBS-Ogna mouse skin with calpain inhibitors resulted in increased plectin 1a protein expression levels. Moreover, we report that plectin's rod domain forms dimeric structures that can further associate laterally into remarkably stable (paracrystalline) polymers. We propose focal self-association of plectin molecules as a novel mechanism contributing to hemidesmosome homeostasis and stabilization. 相似文献
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Glucose metabolism is under the cooperative regulation of both insulin receptor (IR) and β2-adrenergic receptor (β2AR), which represent the receptor tyrosine kinases (RTKs) and seven transmembrane receptors (7TMRs), respectively. Studies demonstrating cross-talk between these two receptors and their endogenous coexpression have suggested their possible interactions. To evaluate the effect of IR and prospective heteromerization on β2AR properties, we showed that IR coexpression had no effect on the ligand binding properties of β2AR; however, IR reduced β2AR surface expression and accelerated its internalization. Additionally, both receptors displayed a similar distribution pattern with a high degree of colocalization. To test the possible direct interaction between β2AR and IR, we employed quantitative BRET2 saturation and competition assays. Saturation assay data suggested constitutive β2AR and IR homo- and heteromerization. Calculated acceptor/donor (AD50) values as a measure of the relative affinity for homo- and heteromer formation differed among the heteromers that could not be explained by a simple dimer model. In heterologous competition assays, a transient increase in the BRET2 signal with a subsequent hyperbolical decrease was observed, suggesting higher-order heteromer formation. To complement the BRET2 data, we employed the informational spectrum method (ISM), a virtual spectroscopy method to investigate protein-protein interactions. Computational peptide scanning of β2AR and IR identified intracellular domains encompassing residues at the end of the 7th TM domain and C-terminal tail of β2AR and a cytoplasmic part of the IR β chain as prospective interaction domains. ISM further suggested a high probability of heteromer formation and homodimers as basic units engaged in heteromerization. In summary, our data suggest direct interaction and higher-order β2AR:IR oligomer formation, likely comprising heteromers of homodimers. 相似文献
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Goran Koricanac Tijana Milosavljevic Mojca Stojiljkovic Zorica Zakula Snezana Tepavcevic Nevena Ribarac‐Stepic Esma R. Isenovic 《Cell biochemistry and function》2009,27(2):102-110
It is well known that variation in the concentration of estrogens affects insulin action. In this study we examine the impact of estradiol (E2) on insulin signaling in the rat heart. Ovariectomized female rats were treated with E2 6 h prior to analysis of basal protein and mRNA content of insulin signaling molecules, and additionally with insulin 30 min before the experiment to delineate E2 effects on phosphorylations and molecular associations relevant for insulin signaling. The results show that E2 decreased insulin receptor (IR) tyrosine phosphorylation, while it did not alter IR protein and mRNA content. E2 administration did not change IR substrate 1 (IRS‐1) protein content and tyrosine phosphorylation, while decreased mRNA content and increased its association with the p85 subunit of phosphatidylinositol 3‐kinase (PI3K). E2 decreased protein and mRNA content of IR substrate 2 (IRS‐2), while did not change IRS‐2 tyrosine phosphorylation and IRS‐2 association with p85. The increase of IRS‐1/p85 is accompanied by increase of p85 protein and mRNA levels, and by stimulation of protein kinase B (Akt) Ser473 phosphorylation. In contrast, Akt protein and mRNA content were not changed. In summary, although in some aspects cardiac insulin signaling is obviously improved by E2 treatment (increase of p85 mRNA and protein levels, enhancement of IRS‐1/p85 association and Ser473Akt phosphorylation), the observed decrease of IR tyrosine phosphorylation, IRS‐2 protein content, and IRSs mRNA contents, suggest very complex interplay of beneficial and suppressive effects of E2, both genomic and non‐genomic, in regulation of heart insulin signaling. Copyright © 2009 John Wiley & Sons, Ltd. 相似文献
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The Informational Spectrum Method (ISM) is the tool for the in silico analysis of proteins which interprets protein sequence linear information using signal analyses methods. In this paper the ISM was employed to characterize the products of genetic variants of tumor suppressor gene p53 and its natural binding regulator protein Mdm2. Based on this we propose the criterion for identification of missense mutations that have impact on the p53-Mdm2 feedback loop. The efficiency of the proposed criterion was confirmed by the ISM analyses of p53 mutants reported in: (i) healthy individuals, (ii) germline mutations database and (iii) somatic mutations database. 相似文献
108.
Jelena Milojević Ljiljana Tubić Vladimir Nolić Nevena Mitić Dušica Ćalić-Dragosavac Branka Vinterhalter Snežana Zdravković-Korać 《Plant Cell, Tissue and Organ Culture》2012,109(3):573-579
Hygromycin (hyg) at low doses (0.5–1.0 mg l?1) promoted somatic embryogenesis from apical sections of spinach lateral roots. The highest promoting effect on both the frequency of regeneration and the mean number of somatic embryos (SE) per explant was achieved at 0.5 mg l?1 hyg. With increasing the concentration of hyg to 1 mg l?1, the regeneration frequency decreased, while the mean SE number remained significantly higher than in control (hyg-free medium). Complete inhibition of SE regeneration started at 7.5 mg l?1 hyg. Moreover, hyg efficiently promoted the process of secondary somatic embryogenesis. Compared to control, a 2.75-fold increase in the secondary somatic embryo (SSE) mean number was obtained at 0.5 mg l?1 hyg, and the increment was still discernible at 1.0 and 2.5 mg l?1 hyg. Both primary SE and SSE explants became completely necrotic at 12.5 mg l?1 hyg. Since attempts with direct selection at 20 mg l?1 hyg proved unsuccessful, the results obtained in this study suggest that a stepwise selection procedure is suitable, starting with selection at 0.5 mg l?1 hyg, to exploit the promoting effect of low hyg doses on SE regeneration from transformed cells, then gradually increasing the hyg concentration to 20 mg l?1 for final selection. Complete SE and SSE explant mortality at hyg above 12.5 mg l?1 guarantees a low possibility of escape during the selection process. This study will be useful for increasing the efficiency of transgenic plant regeneration following genetic transformation in spinach. 相似文献
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Nelli G. Markova Nevena Karaman-Jurukovska Kelly K. Dong Niusha Damaghi Kenneth A. Smiles Daniel B. Yarosh 《Free radical biology & medicine》2009,46(8):1168-1176
The cellular defense system against harmful levels of reactive oxygen species consists of antioxidant enzymatic activities and small nonenzymatic molecules. l-Ergothioneine has long been recognized as a potent and stable low-molecular-weight antioxidant that humans consume with diet and that accumulates in cells normally subjected to high levels of oxidative stress. As l-ergothioneine is plasma membrane-impermeative, its protective function is restricted to cells that express the l-ergothioneine-specific receptor/transporter OCTN1. Here we report for the first time that both as resident skin cells and in culture, epidermal keratinocytes synthesize OCTN1, which enables them to internalize and accumulate l-ergothioneine. This accumulation confers upon the cells an increased antioxidant potential. Consequently, it reduces the levels of reactive oxygen species and DNA, protein, and lipid damage in keratinocytes subjected to solar-simulating UV oxidative stress. Our results suggest that l-ergothioneine not only prevents oxidative damage but also may enable DNA repair in the UV-irradiated cells. The diminished oxidative damage to cellular constituents limits the apoptotic response and results in increased cell viability. The cells' ability to take up, accumulate, and utilize the potent antioxidant l-ergothioneine positions this naturally occurring amino acid and its receptor/transporter as an integral part of the antioxidative defense system of the skin. 相似文献