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991.
992.
果蝇先天性免疫研究进展 总被引:2,自引:0,他引:2
果蝇是生命科学与人类疾病研究的重要模式生物,虽然不具有人类高度专一的获得性免疫,但也有对病原微生物感染作出快速有效反应的先天性免疫应答系统,主要包括体液免疫,细胞免疫和黑化反应。文章结合国外最新研究,详细介绍果蝇体液免疫中控制抗菌肽合成的Toll信号通路和Imd信号通路中涉及的蛋白及其相互作用,并对果蝇细胞免疫中的吞噬、包埋功能和黑化反应作简要阐述。研究表明,果蝇的Toll和Imd信号通路分别与人类的TLR4和TNRF-1信号通路存在着惊人的相似之处,说明果蝇与人类在免疫调控通路方面可能存在着共同的进化起源。 相似文献
993.
David Jelinek Sarah Mount Patrick Khameeka N. Kitt Teddy Chan Gordon A. Francis William S. Garver 《Journal of cellular biochemistry》2009,108(5):1102-1116
The Niemann‐Pick C1 and C2 (NPC1 and NPC2) proteins have a central role in regulating the transport of lipoprotein‐derived cholesterol from endocytic compartments to the endoplasmic reticulum for esterification by acyl‐CoA:cholesterol acyltransferase (ACAT) and feedback inhibition of the sterol regulatory element‐binding protein (SREBP) pathway. Since the NPC1 gene/protein has recently been shown to be downregulated by feedback inhibition of the SREBP pathway, the present study was performed to determine whether physiological downregulation of the NPC1 gene/protein alters the transport and metabolism of low‐density lipoprotein (LDL)‐derived cholesterol in human fibroblasts. To perform this study, three different culture conditions were used that included fibroblasts grown in lipoprotein‐deficient serum (LPDS), LPDS supplemented with LDL, and LPDS supplemented with LDL, followed by equilibration in the absence of LDL to allow the transport of LDL‐derived cholesterol from endocytic compartments and equilibration of cellular sterol pools. The results from this study indicated that in addition to the NPC1 gene/protein, the NPC2 gene/protein was also downregulated by LDL‐derived cholesterol‐dependent feedback inhibition and that downregulation of both the NPC1 and NPC2 genes/proteins was associated with the sequestration of LDL‐derived cholesterol within endocytic compartments, including late endosomes/lysosomes after equilibration. Therefore, it is proposed that physiological and coordinate downregulation of the NPC1 and NPC2 genes/proteins promotes the sequestration of LDL‐derived cholesterol within endocytic compartments and serves a role in maintaining intracellular cholesterol homeostasis. J. Cell. Biochem. 108: 1102–1116, 2009. © 2009 Wiley‐Liss, Inc. 相似文献
994.
995.
S. Montagnaro M. Longo M. Pacilio P. Indovina A. Roberti L. De Martino G. Iovane U. Pagnini 《Journal of cellular biochemistry》2009,106(1):179-185
Cytotoxic T lymphocytes (CTLs) are an essential component of the immune defense against many virus infections. CTLs recognize viral peptides in the context of the major histocompatibility complex (MHC) class I molecules on the surface of infected cells. Many viruses have evolved mechanisms to interfere with MHC class I expression as a means of evading the host immune response. In the present research we have studied the effect of in vitro Feline Herpesvirus 1 (FeHV‐1) infection on MHC class I expression. The results of this study demonstrate that FeHV‐1 down regulates surface expression of MHC class I molecules on infected cells, presumably to evade cytotoxic T‐cell recognition and, perhaps, attenuate induction of immunity. Sensitivity to UV irradiation and insensitivity to a viral DNA synthesis inhibitor, like phosphonacetic acid, revealed that immediate early or early viral gene(s) are responsible. Use of the protein translation inhibitor cycloheximide confirmed that an early gene is primarily responsible. J. Cell. Biochem. 106: 179–185, 2009. © 2008 Wiley‐Liss, Inc. 相似文献
996.
Human embryonic stem cells (hESCs) hold great promise in regenerative medicine. However, before the full potential of these cells is achieved, major basic biological questions need to be addressed. In particular, there are still gaps in our knowledge of the molecular mechanisms underlying the derivation of hESCs from blastocysts, the regulation of the undifferentiated, pluripotent state, and the control of differentiation into specific lineages. Furthermore, we still do not fully understand the tumorigenic potential of hESCs, limiting their use in regenerative medicine. The RB pathway is a key signaling module that controls cellular proliferation, cell survival, chromatin structure, and cellular differentiation in mammalian cells. Members of the RB pathway are important regulators of hESC biology and manipulation of the activity of this pathway may provide novel means to control the fate of hESCs. Here we review what is known about the expression and function of members of the RB pathway in hESCs and discuss areas of interest in this field. J. Cell. Biochem. 108: 1023–1030, 2009. © 2009 Wiley‐Liss, Inc. 相似文献
997.
Translocation of cell-penetrating peptides and delivery of their cargoes in triticale microspores 总被引:1,自引:0,他引:1
Microspore culture is contributing significantly in the field of plant breeding for crop improvement in general and cereals,
in particular. In the present study, we investigated the uptake of fluorescently labeled cell-penetrating peptides (CPP; Tat,
Tat2, M-Tat, peptide vascular endothelial-cadherin, transportan) in the freshly isolated triticale microspores (mid-late uninucleate
stage). We demonstrated that Tat (RKKRRQRRR) and Tat2 (RKKRRQRRRRKKRRQRRR) are able to efficiently transduce GUS enzyme (272 kDa) in its functional form in 5 and 14% of the microspores,
respectively, in a noncovalent manner. Pep-1, a synthetic CPP, was able to transduce GUS enzyme in its active form in 31%
of the microspores. The effect of various endocytic and macropinocytic inhibitors on Tat2-mediated GUS enzyme delivery was studied and revealed a preferred micropinocytosis entry. DNase I protection assay and confocal
laser microscopy was carried out to recommend a ratio of 4:1 Tat2-linear plasmid DNA (pActGUS) in complex preparation for microspore transfection. We further show that Tat2 can successfully deliver GUS gene in near to 2% triticale microspores. The negative control mutated Tat (M-Tat: AKKRRQRRR) failed to transducer the GUS
protein and transfect the GUS gene in microspore nucleus. The ability of CPPs to deliver macromolecules (protein as well as linear plasmid DNA) noncovalently
has been demonstrated in triticale isolated microspores. It further confirms potential applications of CPPs in developing
simple, time saving, cost effective plant genetic engineering technologies. 相似文献
998.
Xian‐Bao Liu Jian‐An Wang Molly E. Ogle Ling Wei 《Journal of cellular biochemistry》2009,106(5):903-911
Mesenchymal stem cell (MSC) transplantation is a promising approach in the therapy of ischemic heart or CNS diseases; however, the poor viability of MSCs after transplantation critically limits the efficacy of this new strategy. Prolyl hydroxylase inhibition followed by HIF‐1α up‐regulation participates in the regulation of apoptosis and cell survival, which have been shown in cancer cells and neurons. The role of prolyl hydroxylase inhibition by dimethyloxalylglycine (DMOG) in regulation of cell survival has not been investigated in MSCs. In the present investigation with MSCs, apoptosis and cell death induced by serum deprivation were assessed by caspase‐3 activation and trypan blue staining, respectively. The mitochondrial apoptotic pathway and PI3K/Akt cell survival pathway were evaluated. DMOG significantly attenuated apoptosis and cell death of MSCs, stabilized HIF‐1α and induced downstream glucose transport 1 (Glut‐1) synthesis. DMOG treatment reduced mitochondrial cytochrome c release, nuclear translocation of apoptosis inducing factor (AIF), and promoted Akt phosphorylation. A specific PI3K inhibitor, wortmannin, blocked Akt phosphorylation and abrogated the beneficial effect of DMOG. These data suggest that the DMOG protection of MSCs may provide a novel approach to promote cell survival during cell stress. J. Cell. Biochem. 106: 903–911, 2009. © 2009 Wiley‐Liss, Inc. 相似文献
999.
Peter Sogaard Ferenc Szekeres Maria Holmström Dennis Larsson Mikael Harlén Pablo Garcia‐Roves Alexander V. Chibalin 《Journal of cellular biochemistry》2009,107(6):1189-1197
In vitro incubation of isolated rodent skeletal muscle is a widely used procedure in metabolic research. One concern with this method is the development of an anoxic state during the incubation period that can cause muscle glycogen depletion. Our aim was to investigate whether in vitro incubation conditions influence glycogen concentration in glycolytic extensor digitorum longus (EDL) and oxidative soleus mouse muscle. Quantitative immunohistochemistry was applied to assess glycogen content in incubated skeletal muscle. Glycogen concentration was depleted, independent of insulin‐stimulation in the incubated skeletal muscle. The extent of glycogen depletion was correlated with the oxidative fibre distribution and with the induction of hypoxia‐induced‐factor‐1‐alpha. Insulin exposure partially prevented glycogen depletion in soleus, but not in EDL muscle, providing evidence that glucose diffusion is not a limiting step to maintain glycogen content. Our results provide evidence to suggest that the anoxic milieu and the intrinsic characteristics of the skeletal muscle fibre type play a major role in inducing glycogen depletion in during in vitro incubations. J. Cell. Biochem. 107: 1189–1197, 2009. © 2009 Wiley‐Liss, Inc. 相似文献
1000.
Tso‐Ning Li Ko‐Hsin Chin Jyung‐Hurng Liu Andrew H.‐J. Wang Shan‐Ho Chou 《Proteins》2009,75(2):282-288
The crystal structure of XC1028 from Xanthomonas campestris has been determined to a resolution of 2.15 Å using the multiple anomalous dispersion approach. It bears significant sequence identity and similarity values of 64.10% and 70.09%, respectively, with PA2960, a protein indispensable for type IV pilus‐mediated twitching motility, after which the PilZ motif was first named. However, both XC1028 and PA2960 lack detectable c‐di‐GMP binding capability. Although XC1028 adopts a structure comprising a five‐stranded β‐barrel core similar to other canonical PilZ domains with robust c‐di‐GMP binding ability, considerable differences are observed in the N‐terminal motif; XC1028 assumes a compact five‐stranded β‐barrel without an extra long N‐terminal motif, whereas other canonical PilZ domains contain a long N‐terminal sequence embedded with an essential “c‐di‐GMP switch” motif. In addition, a β‐strand (β1) in the N‐terminal motif, running in exactly opposite polarity to that of XC1028, is found inserted into the parallel β3/β1′ strands, forming a completely antiparallel β4↓β3↑β1↓β1′↑ sheet in the canonical PilZ domains. Such dramatic structural differences at the N‐terminus may account for the diminished c‐di‐GMP binding capability of XC1028, and suggest that interactions with additional proteins are necessary to bind c‐di‐GMP for type IV fimbriae assembly. Proteins 2009. © 2008 Wiley‐Liss, Inc. 相似文献