酿酒酵母和白假丝酵母乙酰乳酸合酶(ilv2Δ)突变体的细胞毒性氨基酸饥饿受碳源和雷帕霉素的影响。
Cytocidal amino acid starvation of Saccharomyces cerevisiae and Candida albicans acetolactate synthase (ilv2{Delta}) mutants is influenced by the carbon source and rapamycin.
机构信息
Department of Molecular Genetics and Microbiology, Box 3020, Duke University Medical Center, Durham, NC 27710, USA.
出版信息
Microbiology (Reading). 2010 Mar;156(Pt 3):929-939. doi: 10.1099/mic.0.034348-0. Epub 2009 Dec 17.
The isoleucine and valine biosynthetic enzyme acetolactate synthase (Ilv2p) is an attractive antifungal drug target, since the isoleucine and valine biosynthetic pathway is not present in mammals, Saccharomyces cerevisiae ilv2Delta mutants do not survive in vivo, Cryptococcus neoformans ilv2 mutants are avirulent, and both S. cerevisiae and Cr. neoformans ilv2 mutants die upon isoleucine and valine starvation. To further explore the potential of Ilv2p as an antifungal drug target, we disrupted Candida albicans ILV2, and demonstrated that Ca. albicans ilv2Delta mutants were significantly attenuated in virulence, and were also profoundly starvation-cidal, with a greater than 100-fold reduction in viability after only 4 h of isoleucine and valine starvation. As fungicidal starvation would be advantageous for drug design, we explored the basis of the starvation-cidal phenotype in both S. cerevisiae and Ca. albicans ilv2Delta mutants. Since the mutation of ILV1, required for the first step of isoleucine biosynthesis, did not suppress the ilv2Delta starvation-cidal defects in either species, the cidal phenotype was not due to alpha-ketobutyrate accumulation. We found that starvation for isoleucine alone was more deleterious in Ca. albicans than in S. cerevisiae, and starvation for valine was more deleterious than for isoleucine in both species. Interestingly, while the target of rapamycin (TOR) pathway inhibitor rapamycin further reduced S. cerevisiae ilv2Delta starvation viability, it increased Ca. albicans ilv1Delta and ilv2Delta viability. Furthermore, the recovery from starvation was dependent on the carbon source present during recovery for S. cerevisiae ilv2Delta mutants, reminiscent of isoleucine and valine starvation inducing a viable but non-culturable-like state in this species, while Ca. albicans ilv1Delta and ilv2 Delta viability was influenced by the carbon source present during starvation, supporting a role for glucose wasting in the Ca. albicans cidal phenotype.
异亮氨酸和缬氨酸生物合成酶乙酰乳酸合酶(Ilv2p)是一种有吸引力的抗真菌药物靶点,因为异亮氨酸和缬氨酸生物合成途径不存在于哺乳动物中,酿酒酵母 ilv2Δ 突变体在体内无法存活,新生隐球菌 ilv2 突变体无毒,酿酒酵母和新生隐球菌 ilv2 突变体在缺乏异亮氨酸和缬氨酸时都会死亡。为了进一步探索 Ilv2p 作为抗真菌药物靶点的潜力,我们敲除了白色念珠菌 ILV2,并证明白色念珠菌 ilv2Δ 突变体的毒力显著减弱,并且在缺乏异亮氨酸和缬氨酸仅 4 小时后就会被饥饿杀死,其存活率降低了 100 多倍。由于杀菌性饥饿有利于药物设计,我们在酿酒酵母和白色念珠菌 ilv2Δ 突变体中探索了饥饿致死表型的基础。由于 ILV1 的突变是异亮氨酸生物合成的第一步所必需的,该突变不能抑制这两种生物的 ilv2Δ 饥饿致死缺陷,因此致死表型不是由于α-酮丁酸的积累。我们发现,与酿酒酵母相比,白色念珠菌仅缺乏异亮氨酸就更具危害性,而在这两种生物中,缺乏缬氨酸比缺乏异亮氨酸更具危害性。有趣的是,虽然雷帕霉素(TOR)通路抑制剂雷帕霉素进一步降低了酿酒酵母 ilv2Δ 饥饿时的存活率,但它增加了白色念珠菌 ilv1Δ 和 ilv2Δ 的存活率。此外,恢复依赖于酿酒酵母 ilv2Δ 突变体在恢复期间存在的碳源,这类似于异亮氨酸和缬氨酸饥饿诱导该物种进入一种存活但不可培养的状态,而白色念珠菌 ilv1Δ 和 ilv2Δ 的存活率受到饥饿期间存在的碳源的影响,这支持葡萄糖消耗在白色念珠菌杀菌表型中的作用。
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