Modulation of Sp1 Phosphorylation by Human Immunodeficiency Virus Type 1 Tat

We previously reported (K. T. Jeang, R. Chun, N. H. Lin, A. Gatignol, C. G. Glabe, and H. Fan, J. Virol. 67:6224–6233, 1993) that human immunodeficiency virus type 1 (HIV-1) Tat and Sp1 form a protein-protein complex. Here, we have characterized the physical interaction and a functional consequence of Tat-Sp1 contact. Using in vitro protein chromatography, we mapped the region in Tat that contacts Sp1 to amino acids 30 to 55. We found that in cell-free reactions, Tat augmented double-stranded DNA-dependent protein kinase (DNA-PK)-mediated Sp1 phosphorylation in a contact-dependent manner. Tat mutants that do not bind Sp1 failed to influence phosphorylation of the latter. In complementary experiments, we also found that Tat forms protein-protein contacts with DNA-PK. We confirmed that in HeLa and Jurkat cells, Tat expression indeed increased the intracellular amount of phosphorylated Sp1 in a manner consistent with the results of cell-free assays. Furthermore, using two phosphatase inhibitors and a kinase inhibitor, we demonstrated a modulation of reporter gene expression as a consequence of changes in Sp1 phosphorylation. Taken together, these findings suggest that activity at the HIV-1 promoter is influenced by phosphorylation of Sp1 which is affected by Tat and DNA-PK.     

HIV-1 Tat蛋白对人类疱疹病毒8型复制的影响

用HindⅢ将HIV-1Tat101蛋白编码基因从pEV质粒中切出,BamHI、NotⅠ将绿色荧光蛋白(GFP)编码基因从表达质粒pcDNA3．1 ／GFP中切出,分别插入到质粒LZRSpBMN-Z中,构建成重组反转录病毒表达质粒LZRS—Tat101和LZRS—GFP。采用磷酸钙转染法将两重组质粒转染到含反转录病毒env,gal和pol编码基因的包装细胞Phoenix(φNX)中,嘌呤霉素筛选获得稳定细胞系。分别收集稳定细胞系分泌的病毒上清,并感染体外培养的原发性渗出性淋巴瘤(PEL)BC2BL-1细胞。收集LZRS—GFP重组病毒感染的BCBL-1细胞进行流式细胞计数,检测GFP表达水平。收集LZRS—Tat101重组病毒感染的BCBL-1细胞,提取蛋白作Western blot,检测Tat蛋白表达状况;取细胞总RNA作Northem blot和定量PCR,检查HHV-8次要衣壳蛋白ORF26 mRNA转录水平。重组LZRS—Tat101病毒进一步感染HL3T1细胞(HeLa细胞包含HIV-1-LTR／CAT报告基因),收集感染细胞提取蛋白,检测CAT活性,评价Tat生物学功能。PCR扩增HHV-8复制和转录激活蛋白Rta启动子区上游序列,并克隆至pGL-3载体中,构建Rta启动子 虫荧光素酶(Luciferase)报告基因重组质粒。此重组质粒进一步电转染预先感染了LZRS—Tat101病毒的BC-3细胞,TPA刺激后收集细胞,检测Luciferase活性。结果显示：①重组反转录病毒感染BCBL-1细胞,一次感染效率达56％;②重组LZRS—Tat101毒能够在其感染的BCBL-1细胞中表达Tat蛋白,且表达蛋白具有转录激活功能;③Tat蛋白不能有效上调HHV-8Rta启动子活性;④细胞内HIV-1Tat蛋白诱导HHV-8可溶性周期复制的能力较弱。提示,单纯HIV-1Tat蛋白并不能激活潜伏感染的HHV-8。     

Regions of Human Immunodeficiency Virus Type 1 nef Required for Function In Vivo

In vivo studies in monkeys and humans have indicated that immunodeficiency viruses with Nef deleted are nonpathogenic in immunocompetent hosts, and this has motivated a search for live attenuated vaccine candidates. However, the mechanisms of action of Nef remain elusive. To define the regions of human immunodeficiency virus type 1 (HIV-1) Nef which mediate in vivo pathogenicity, a series of mutated isogenic viruses were inoculated into human thymic implants in SCID-hu mice. Mutation of several regions, including the myristoylation site at the second glycine and a region encompassing amino acids 41 through 49 of Nef, profoundly affected pathogenicity. Surprisingly, mutations of prolines in either of the two distant PXXP SH3 binding domains did not affect pathogenicity, indicating that these regions are not required for Nef activity in developing T-lineage cells. These data suggest that some functions of Nef described in vitro may not be relevant for in vivo pathogenicity.     

The I Domain Is Required for Efficient Plasma Membrane Binding of Human Immunodeficiency Virus Type 1 Pr55Gag

The interaction of the human immunodeficiency virus type 1 (HIV-1) Pr55^Gag molecule with the plasma membrane of an infected cell is an essential step of the viral life cycle. Myristic acid and positively charged residues within the N-terminal portion of MA constitute the membrane-binding domain of Pr55^Gag. A separate assembly domain, termed the interaction (I) domain, is located nearer the C-terminal end of the molecule. The I domain is required for production of dense retroviral particles, but has not previously been described to influence the efficiency of membrane binding or the subcellular distribution of Gag. This study used a series of Gag-green fluorescent protein fusion constructs to define a region outside of MA which determines efficient plasma membrane interaction. This function was mapped to the nucleocapsid (NC) region of Gag. The minimal region in a series of C-terminally truncated Gag proteins conferring plasma membrane fluorescence was identified as the N-terminal 14 amino acids of NC. This same region was sufficient to create a density shift in released retrovirus-like particles from 1.13 to 1.17 g/ml. The functional assembly domain previously termed the I domain is thus required for the efficient plasma membrane binding of Gag, in addition to its role in determining the density of released particles. We propose a model in which the I domain facilitates the interaction of the N-terminal membrane-binding domain of Pr55^Gag with the plasma membrane.     

Human Immunodeficiency Virus Type 1 Nef Inhibits Autophagy through Transcription Factor EB Sequestration

HIV Nef acts as an anti-autophagic maturation factor through interaction with beclin-1 (BECN1). We report that exposure of macrophages to infectious or non-infectious purified HIV induces toll-like receptor 8 (TLR8) and BECN1 dependent dephosphorylation and nuclear translocation of TFEB and that this correlates with an increase in autophagy markers. RNA interference for ATG13, TFEB, TLR8, or BECN1 inhibits this HIV-induced autophagy. However, once HIV establishes a productive infection, TFEB phosphorylation and cytoplasmic sequestration are increased resulting in decreased autophagy markers. Moreover, by 7 d post-infection, autophagy levels are similar to mock infected controls. Conversely, although Nef deleted HIV similarly induces TFEB dephosphorylation and nuclear localization, and increases autophagy, these levels remain elevated during continued productive infection. Thus, the interaction between HIV and TLR8 serves as a signal for autophagy induction that is dependent upon the dephosphorylation and nuclear translocation of TFEB. During permissive infection, Nef binds BECN1 resulting in mammalian target of rapamycin (MTOR) activation, TFEB phosphorylation and cytosolic sequestration, and the inhibition of autophagy. To our knowledge, this is the first report of a virus modulating TFEB localization and helps to explain how HIV modulates autophagy to promote its own replication and cell survival.     

牛免疫缺陷病毒反式激活因子功能域的研究

牛免疫缺陷病毒 (Ｂｏｖｉｎｅｉｍｍｕｎｏｄｅｆｉｃｉｅｎｃｙｖｉｒｕｓ,ＢＩＶ )与人免疫缺陷病毒 (Ｈｕｍａｎｉｍ ｍｕｎｏｄｅｆｉｃｉｅｎｃｙｖｉｒｕｓ,ＨＩＶ)同属反转录病毒科慢病毒属[1] 。ＢＩＶ基因组 5′端的长末端重复序列 (ＬＴＲ)起始病毒结构基因和非结构基因的转录[2 ] ,因而许多细胞因子和病毒编码的调节蛋白作用于ＬＴＲ ,以调节ＢＩＶ的基因表达。其中Ｔａｔ蛋白是ＢＩＶ的反式激活因子 ,可大大提高ＬＴＲ的转录水平 ,在ＢＩＶ的基因表达及基因组复制的调节中起重要作用[3 ] 。ＨＩＶ、马传染性贫血病毒 (Ｅｑｕｉ…     

牛免疫缺陷病毒反式激活因子功能域的研究

牛免疫缺陷病毒(Bovine immunodeficiency virus, BIV)与人免疫缺陷病毒(Human immunod eficiency virus, HIV)同属反转录病毒科慢病毒属[1].BIV基因组5′端的长末端重复序列(LTR)起始病毒结构基因和非结构基因的转录[2],因而许多细胞因子和病毒编码的调节蛋白作用于LTR,以调节BIV的基因表达.     

人免疫缺陷病毒1型TAT蛋白点突变对其反式激活作用的影响

不同免疫缺陷病毒（ＨＩＶ－１,ＨＩＶ－２和ＳＩＶ）的Ｔａｔ均有３个高度保守的结构域：Ｃｙｓ富集域、核心域和碱性氨基酸富集域,用ＰＣＲ定点突变法在ＨＩＶ－１Ｔａｔ蛋白的这些区域引入单氨基酸或多氨基酸突变;构建了以ＨＩＶ－１ＬＴＲ－１５８到＋８Ｏ区域为启动子,含有不同突变点的突变Ｔａｔ基因表达质粒;以荧光酶基因为报告基因,瞬时共转染Ｊｕｒｋａｔ细胞：分析不同氨基酸突变对Ｔａｔ的反式激活作用的影响。结果发现,突变后的Ｔａｔ蛋白的活性均极大地降低或丧失,表明这些序列内的氨基酸的确定性对Ｔａｔ的活性至关重要。     

PITALRE, the Catalytic Subunit of TAK, Is Required for Human Immunodeficiency Virus Tat Transactivation In Vivo

The human cdc2-related kinase PITALRE is the catalytic component of TAK, the Tat-associated kinase. Previously, we have proposed that TAK is a cellular factor that mediates Tat transactivation function. Here we demonstrate that transient overexpression of PITALRE specifically squelches Tat-1 activation of both a transfected and an integrated human immunodeficiency virus type 1 (HIV-1) long terminal repeat (LTR), suggesting that PITALRE mediates Tat function as a multiprotein complex. A catalytic mutant of PITALRE, D167N, was found to be more efficient than wild-type PITALRE in squelching Tat transactivation. Neither wild-type PITALRE nor D167N was able to squelch transactivation of the human T-cell leukemia type 1 LTR by the Tax protein. Additionally, we show that artificial targeting of PITALRE to a nascent RNA element, in the absence of Tat, activated HIV-1 LTR expression. These results indicate that a PITALRE-containing complex mediates transactivation by Tat and suggest that Tat proteins function by localizing such a PITALRE-containing complex to the site of the transcribing provirus.