Dotiwala Farokh, Mulik Sachin, Polidoro Rafael B, Ansara James A, Burleigh Barbara A, Walch Michael, Gazzinelli Ricardo T, Lieberman Judy
Program in Cellular and Molecular Medicine, Boston Children's Hospital, Boston, Massachusetts, USA.
Department of Pediatrics, Harvard Medical School, Boston, Massachusetts, USA.
Nat Med. 2016 Feb;22(2):210-6. doi: 10.1038/nm.4023. Epub 2016 Jan 11.
Protozoan infections are a serious global health problem. Natural killer (NK) cells and cytolytic T lymphocytes (CTLs) eliminate pathogen-infected cells by releasing cytolytic granule contents--granzyme (Gzm) proteases and the pore-forming perforin (PFN)--into the infected cell. However, these cytotoxic molecules do not kill intracellular parasites. CD8(+) CTLs protect against parasite infections in mice primarily by secreting interferon (IFN)-γ. However, human, but not rodent, cytotoxic granules contain the antimicrobial peptide granulysin (GNLY), which selectively destroys cholesterol-poor microbial membranes, and GNLY, PFN and Gzms rapidly kill intracellular bacteria. Here we show that GNLY delivers Gzms into three protozoan parasites (Trypanosoma cruzi, Toxoplasma gondii and Leishmania major), in which the Gzms generate superoxide and inactivate oxidative defense enzymes to kill the parasite. PFN delivers GNLY and Gzms into infected cells, and GNLY then delivers Gzms to the intracellular parasites. Killer cell-mediated parasite death, which we term 'microbe-programmed cell death' or 'microptosis', is caspase independent but resembles mammalian apoptosis, causing mitochondrial swelling, transmembrane potential dissipation, membrane blebbing, phosphatidylserine exposure, DNA damage and chromatin condensation. GNLY-transgenic mice are protected against infection by T. cruzi and T. gondii, and survive infections that are lethal to wild-type mice. Thus, GNLY-, PFN- and Gzm-mediated elimination of intracellular protozoan parasites is an unappreciated immune defense mechanism.
原生动物感染是一个严重的全球健康问题。自然杀伤(NK)细胞和细胞毒性T淋巴细胞(CTL)通过将细胞毒性颗粒内容物——颗粒酶(Gzm)蛋白酶和成孔穿孔素(PFN)释放到被感染细胞中来清除病原体感染的细胞。然而,这些细胞毒性分子并不能杀死细胞内的寄生虫。CD8⁺ CTL主要通过分泌干扰素(IFN)-γ来保护小鼠免受寄生虫感染。然而,人类而非啮齿动物的细胞毒性颗粒含有抗菌肽颗粒溶素(GNLY),它能选择性地破坏胆固醇含量低的微生物膜,并且GNLY、PFN和Gzms能迅速杀死细胞内细菌。在这里,我们表明GNLY将Gzms递送至三种原生动物寄生虫(克氏锥虫、刚地弓形虫和硕大利什曼原虫)中,其中Gzms产生超氧化物并使氧化防御酶失活以杀死寄生虫。PFN将GNLY和Gzms递送至被感染细胞,然后GNLY将Gzms递送至细胞内寄生虫。杀伤细胞介导的寄生虫死亡,我们称之为“微生物程序性细胞死亡”或“微凋亡”,不依赖于半胱天冬酶,但类似于哺乳动物的细胞凋亡,导致线粒体肿胀、跨膜电位耗散、膜泡形成、磷脂酰丝氨酸暴露、DNA损伤和染色质凝聚。GNLY转基因小鼠受到克氏锥虫和刚地弓形虫感染的保护,并能在对野生型小鼠致命的感染中存活。因此,GNLY、PFN和Gzm介导的细胞内原生动物寄生虫清除是一种未被重视的免疫防御机制。