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991.
Ning Xu 《The Journal of membrane biology》2013,246(1):75-90
In animal cells, the resting potential is established by the concentration gradients of sodium and potassium ions and the different permeabilities of the cell membrane to them. The large concentration gradients of sodium and potassium ions are maintained by the Na+/K+ pump. Under physiological conditions, the pump transports three sodium ions out of and two potassium ions into the cell per ATP hydrolyzed. However, unlike other primary or secondary active transporters, the Na+/K+ pump does not work at the equilibrium state, so the pumping ratio is not a thermodynamic property of the pump. In this article, I propose a dipole-charging model of the Na+/K+ pump to prove that the three Na+ to two K+ pumping ratio of the Na+/K+ pump is determined by the ratio of the ionic mobilities of potassium to sodium ions, which is to ensure the time constant τ and the τ-dependent processes, such as the normal working state of the Na+/K+ pump and the propagation of an action potential. Further, the concentration ratios of potassium ions outside and inside the cell to sodium ions inside and outside the cell are 0.3027 and 0.9788, respectively, and the sum of the potassium and sodium equilibrium potentials is ?30.3 mV. A comparative study on these constants is made for some marine, freshwater and terrestrial animals. These findings suggest that the pumping ratio of the Na+/K+ pump and the ion concentration ratios play a role in the evolution of animal cells. 相似文献
992.
Hong Wang Urmila Sreenivasan Da-Wei Gong Kelly A. O'Connell Erinne R. Dabkowski Peter A. Hecker Nicoleta Ionica Manige Konig Anup Mahurkar Yezhou Sun William C. Stanley Carole Sztalryd 《Journal of lipid research》2013,54(4):953-965
Presence of ectopic lipid droplets (LDs) in cardiac muscle is associated to lipotoxicity and tissue dysfunction. However, presence of LDs in heart is also observed in physiological conditions, such as when cellular energy needs and energy production from mitochondria fatty acid β-oxidation are high (fasting). This suggests that development of tissue lipotoxicity and dysfunction is not simply due to the presence of LDs in cardiac muscle but due at least in part to alterations in LD function. To examine the function of cardiac LDs, we obtained transgenic mice with heart-specific perilipin 5 (Plin5) overexpression (MHC-Plin5), a member of the perilipin protein family. Hearts from MHC-Plin5 mice expressed at least 4-fold higher levels of plin5 and exhibited a 3.5-fold increase in triglyceride content versus nontransgenic littermates. Chronic cardiac excess of LDs was found to result in mild heart dysfunction with decreased expression of peroxisome proliferator-activated receptor (PPAR)α target genes, decreased mitochondria function, and left ventricular concentric hypertrophia. Lack of more severe heart function complications may have been prevented by a strong increased expression of oxidative-induced genes via NF-E2-related factor 2 antioxidative pathway. Perilipin 5 regulates the formation and stabilization of cardiac LDs, and it promotes cardiac steatosis without major heart function impairment. 相似文献
993.
One of the most widely accepted ideas related to the evolutionary rates of proteins is that functionally important residues or regions evolve slower than other regions, a reasonable outcome of which should be a slower evolutionary rate of the proteins with a higher density of functionally important sites. Oddly, the role of functional importance, mainly measured by essentiality, in determining evolutionary rate has been challenged in recent studies. Several variables other than protein essentiality, such as expression level, gene compactness, protein–protein interactions, etc., have been suggested to affect protein evolutionary rate. In the present review, we try to refine the concept of functional importance of a gene, and consider three factors—functional importance, expression level, and gene compactness, as independent determinants of evolutionary rate of a protein, based not only on their known correlation with evolutionary rate but also on a reasonable mechanistic model. We suggest a framework based on these mechanistic models to correctly interpret the correlations between evolutionary rates and the various variables as well as the interrelationships among the variables. 相似文献
994.
Yuyang Sun Senthil Selvaraj Archana Varma Susan Derry Abe E. Sahmoun Brij B. Singh 《The Journal of biological chemistry》2013,288(1):255-263
TRPM7 is a novel magnesium-nucleotide-regulated metal current (MagNuM) channel that is regulated by serum Mg2+ concentrations. Changes in Mg2+ concentration have been shown to alter cell proliferation in various cells; however, the mechanism and the ion channel(s) involved have not yet been identified. Here we demonstrate that TRPM7 is expressed in control and prostate cancer cells. Supplementation of intracellular Mg-ATP or addition of external 2-aminoethoxydiphenyl borate inhibited MagNuM currents. Furthermore, silencing of TRPM7 inhibited whereas overexpression of TRPM7 increased endogenous MagNuM currents, suggesting that these currents are dependent on TRPM7. Importantly, although an increase in the serum Ca2+/Mg2+ ratio facilitated Ca2+ influx in both control and prostate cancer cells, a significantly higher Ca2+ influx was observed in prostate cancer cells. TRPM7 expression was also increased in cancer cells, but its expression was not dependent on the Ca2+/Mg2+ ratio per se. Additionally, an increase in the extracellular Ca2+/Mg2+ ratio led to a significant increase in cell proliferation of prostate cancer cells when compared with control cells. Consistent with these results, age-matched prostate cancer patients also showed a subsequent increase in the Ca2+/Mg2+ ratio and TRPM7 expression. Altogether, we provide evidence that the TRPM7 channel has an important role in prostate cancer and have identified that the Ca2+/Mg2+ ratio could be essential for the initiation/progression of prostate cancer. 相似文献
995.
996.
997.
Xun Huang Qiuming Pan Danni Sun Wei Chen Aijun Shen Min Huang Jian Ding Meiyu Geng 《The Journal of biological chemistry》2013,288(51):36418-36425
O-GlcNAcylation is a post-translational modification that regulates a broad range of nuclear and cytoplasmic proteins and is emerging as a key regulator of various biological processes. Previous studies have shown that increased levels of global O-GlcNAcylation and O-GlcNAc transferase (OGT) are linked to the incidence of metastasis in breast cancer patients, but the molecular basis behind this is not fully known. In this study, we have determined that the actin-binding protein cofilin is O-GlcNAcylated by OGT and mainly, if not completely, mediates OGT modulation of cell mobility. O-GlcNAcylation at Ser-108 of cofilin is required for its proper localization in invadopodia at the leading edge of breast cancer cells during three-dimensional cell invasion. Loss of O-GlcNAcylation of cofilin leads to destabilization of invadopodia and impairs cell invasion, although the actin-severing activity or lamellipodial localization is not affected. Our study provides insights into the mechanism of post-translational modification in fine-tuning the regulation of cofilin activity and suggests its important implications in cancer metastasis. 相似文献
998.
Min Suk Kang Seung-Hoon Baek Yoon Sun Chun A. Zenobia Moore Natalie Landman Diego Berman Hyun Ok Yang Maho Morishima-Kawashima Satoko Osawa Satoru Funamoto Yasuo Ihara Gilbert Di Paolo Jeong Hill Park Sungkwon Chung Tae-Wan Kim 《The Journal of biological chemistry》2013,288(29):20868-20882
Amyloid β-peptide (Aβ) pathology is an invariant feature of Alzheimer disease, preceding any detectable clinical symptoms by more than a decade. To this end, we seek to identify agents that can reduce Aβ levels in the brain via novel mechanisms. We found that (20S)-Rg3, a triterpene natural compound known as ginsenoside, reduced Aβ levels in cultured primary neurons and in the brains of a mouse model of Alzheimer disease. The (20S)-Rg3 treatment induced a decrease in the association of presenilin 1 (PS1) fragments with lipid rafts where catalytic components of the γ-secretase complex are enriched. The Aβ-lowering activity of (20S)-Rg3 directly correlated with increased activity of phosphatidylinositol 4-kinase IIα (PI4KIIα), a lipid kinase that mediates the rate-limiting step in phosphatidylinositol 4,5-bisphosphate synthesis. PI4KIIα overexpression recapitulated the effects of (20S)-Rg3, whereas reduced expression of PI4KIIα abolished the Aβ-reducing activity of (20S)-Rg3 in neurons. Our results substantiate an important role for PI4KIIα and phosphoinositide modulation in γ-secretase activity and Aβ biogenesis. 相似文献
999.
Richard Kin Ting Kam Weili Shi Sun On Chan Yonglong Chen Gang Xu Clara Bik-San Lau Kwok Pui Fung Wood Yee Chan Hui Zhao 《The Journal of biological chemistry》2013,288(44):31477-31487
All-trans-retinoic acid (atRA) is an important morphogen involved in many developmental processes, including neural differentiation, body axis formation, and organogenesis. During early embryonic development, atRA is synthesized from all-trans-retinal (atRAL) in an irreversible reaction mainly catalyzed by retinal dehydrogenase 2 (aldh1a2), whereas atRAL is converted from all-trans-retinol via reversible oxidation by retinol dehydrogenases, members of the short-chain dehydrogenase/reductase family. atRA is degraded by cytochrome P450, family 26 (cyp26). We have previously identified a short-chain dehydrogenase/reductase 3 (dhrs3), which showed differential expression patterns in Xenopus embryos. We show here that the expression of dhrs3 was induced by atRA treatment and overexpression of Xenopus nodal related 1 (xnr1) in animal cap assay. Overexpression of dhrs3 enhanced the phenotype of excessive cyp26a1. In embryos overexpressing aldh1a2 or retinol dehydrogenase 10 (rdh10) in the presence of their respective substrates, Dhrs3 counteracted the action of Aldh1a2 or Rdh10, indicating that retinoic acid signaling is attenuated. Knockdown of Dhrs3 by antisense morpholino oligonucleotides resulted in a phenotype of shortened anteroposterior axis, reduced head structure, and perturbed somitogenesis, which were also found in embryos treated with an excess of atRA. Examination of the expression of brachyury, not, goosecoid, and papc indicated that convergent extension movement was defective in Dhrs3 morphants. Taken together, these studies suggest that dhrs3 participates in atRA metabolism by reducing atRAL levels and is required for proper anteroposterior axis formation, neuroectoderm patterning, and somitogenesis. 相似文献
1000.
Na Yu Peiwei Huangyang Xiaohan Yang Xiao Han Ruorong Yan Hongti Jia Yongfeng Shang Luyang Sun 《The Journal of biological chemistry》2013,288(27):19633-19642