Ilyinskii P O, Simon M A, Czajak S C, Lackner A A, Desrosiers R C
New England Regional Primate Research Center, Harvard Medical School, Southborough, Massachusetts 01772-9102, USA.
J Virol. 1997 Mar;71(3):1880-7. doi: 10.1128/JVI.71.3.1880-1887.1997.
Rhesus monkeys (Macaca mulatta) were infected with five strains of simian immunodeficiency virus (SIV) derived from SIVmac239 containing deletions (delta) or substitutions (subst) in NF-kappaB and Sp1 binding sites. We have shown previously that mutations in these regions still allow efficient SIVmac replication in primary lymphoid cell cultures (P. O. Ilyinskii and R. C. Desrosiers, J. Virol. 70:3118-3126, 1996). Two animals were inoculated intravenously with each mutant strain of SIVmac239: delta NFkappaB, delta Sp1234, delta NFkappaB delta Sp1234, substSp12, and substSp1234. All but one of the infected animals showed an early spike in plasma antigenemia, maintained high virus burdens, and had significant changes in lymphoid tissues, and six died with AIDS within the first 60 weeks of infection. One of the animals infected with the SIV strain delta NFkappaB delta Sp1234 showed lower levels of plasma antigenemia and lower virus burdens; the other animal infected with this same mutant strain died with AIDS 17 weeks after inoculation. No consistent novel mutations or reversions were detected in proviral sequences derived from the animals infected with the deletion mutants and the substSp12 mutant by 20 weeks postinfection. Point-mutated sequences were partially deleted in both animals infected with the substSp1234 strain. These results indicate that the NF-kappaB and Sp1 binding sites are not essential for the induction of AIDS by SIVmac239. They also provide indirect evidence for the importance of a novel enhancer element in the U3 region of the SIVmac long terminal repeat that is located immediately upstream of the NF-kappaB binding site within the C-terminal region of the nef coding sequence.
恒河猴(猕猴)感染了五种猿猴免疫缺陷病毒(SIV)毒株,这些毒株源自SIVmac239,在NF-κB和Sp1结合位点存在缺失(δ)或替换(subst)。我们之前已经表明,这些区域的突变仍能使SIVmac在原代淋巴细胞培养物中高效复制(P.O.伊林斯基和R.C.德罗西耶,《病毒学杂志》70:3118 - 3126,1996)。用每种SIVmac239突变株静脉接种两只动物:δNFκB、δSp1234、δNFκBδSp1234、substSp12和substSp1234。除一只感染动物外,所有感染动物的血浆抗原血症均出现早期峰值,维持高病毒载量,淋巴组织有显著变化,6只在感染后的前60周内死于艾滋病。感染SIV毒株δNFκBδSp1234的一只动物血浆抗原血症水平较低且病毒载量较低;感染同一突变株的另一只动物在接种后17周死于艾滋病。在感染缺失突变株和substSp12突变株的动物的前病毒序列中,到感染后20周未检测到一致的新突变或回复突变。感染substSp1234毒株的两只动物中,点突变序列均部分缺失。这些结果表明,NF-κB和Sp1结合位点对于SIVmac239诱导艾滋病并非必不可少。它们还间接证明了SIVmac长末端重复序列U3区域中一个新的增强子元件的重要性,该元件位于nef编码序列C末端区域内NF-κB结合位点的紧邻上游。