1. Anti-chlamydial activities of cell-permeable hydrophobic dipeptide-containing derivatives
Ryota Itoh, Toshinori Soejima, Kenji Hiromatsu J Infect Chemother. 2019 Dec;25(12):987-994. doi: 10.1016/j.jiac.2019.05.024. Epub 2019 Jun 20.
The obligate intracellular bacteria chlamydia is major human pathogen that causes millions of trachoma, sexually transmitted infections and pneumonia worldwide. We serendipitously found that both calpain inhibitors z-Val-Phe-CHO and z-Leu-Nle-CHO showed marked inhibitory activity against chlamydial growth in human epithelial HeLa cells, whereas other calpain inhibitors not. These peptidomimetic inhibitors consist of N-benzyloxycarbonyl group and hydrophobic dipeptide derivatives. Both compounds strongly restrict the chlamydial growth even addition at the 12 h post infection. Notably, inhibitors-mediated growth inhibition of chlamydia was independent on host calpain activity. Electron microscopic analysis revealed that z-Val-Phe-CHO inhibited chlamydial growth by arresting bacterial cell division and RB-EB re-transition, but not by changing into persistent state. We searched and found that z-Leu-Leu-CHO and z-Phe-Ala-FMK also inhibited chlamydial growth. Neither biotin-hydrophobic dipeptide nor morpholinoureidyl-hydrophobic dipeptide shows inhibitory effects on chlamydial intracellular growth. Our results suggested the possibility of some chemical derivatives based on z-hydrophobic dipeptide group for future therapeutic usage to the chlamydial infectious disease.
2. Isolation and purification of antibacterial lipopeptides from Bacillus velezensis YA215 isolated from sea mangroves
FuTian Yu, YuanYuan Shen, YaLi Qin, YiYang Pang, HeLiang Fan, JingJing Peng, XiaoDong Pei, XiaoLing Liu Front Nutr. 2022 Nov 24;9:1064764. doi: 10.3389/fnut.2022.1064764. eCollection 2022.
The increasing burden and health risks of antimicrobial resistance (AMR) pose a great threat to society overall. Lipopeptides exhibit great potential as novel and safe alternatives to traditional antibiotics. In this study, the strain YA215, which was isolated from the mangrove area in Beibu Gulf, Guangxi, China, was identified as Bacillus velezensis. Then, YA215 lipopeptide extracts (YA215LE) from B. velezensis was found to exhibit a wide spectrum of antibacterial and antifungal activities. Additionally, YA215LE was identified and found to contain three groups of lipopeptides (surfactin, iturin, and fengycin). Furthermore, one separation fraction (BVYA1) with significant antibacterial activity was obtained. Additionally, liquid chromatography tandem mass spectrometry (LC-MS/MS) analysis of BVYA1 showed three molecular ion peaks ([M + H]+: m/z 980.62; 994.66; 1008.66) corresponding to conventional surfactin homologs. By MS/MS analysis, BVYA1 was identified as sufactin with the precise amino acid sequence Glu-Leu/Ile-Leu-Val-Asp-Leu-Leu/Ile and hydroxyl fatty acids with 11-13 carbons. [M + H]+ at m/z 980.62 was detected for the first time in B. velezensis, which demonstrates that the strain corresponds to a new surfactin variant. In particular, BVYA1 showed antibacterial activity with the minimum inhibitory concentration (MIC) values of 7.5-15 μg/ml. Finally, the preliminary mechanism of inhibiting E. coli treated with BVYA1 showed that BVYA1 effectively permeabilized the cytoplasmic membrane and disrupted the morphology of targeted bacterial cells. In conclusion, this study suggests that the YA215LE from B. velezensis YA215 might be a potential candidate for a bactericide.
3. Tegument protein UL21 of alpha-herpesvirus inhibits the innate immunity by triggering CGAS degradation through TOLLIP-mediated selective autophagy
Zicheng Ma, Juan Bai, Chenlong Jiang, Huixin Zhu, Depeng Liu, Mengjiao Pan, Xianwei Wang, Jiang Pi, Ping Jiang, Xing Liu Autophagy. 2022 Nov 7;1-21. doi: 10.1080/15548627.2022.2139921. Online ahead of print.
Alpha-herpesvirus causes lifelong infections and serious diseases in a wide range of hosts and has developed multiple strategies to counteract the host defense. Here, we demonstrate that the tegument protein UL21 (unique long region 21) in pseudorabies virus (PRV) dampens type I interferon signaling by triggering the degradation of CGAS (cyclic GMP-AMP synthase) through the macroautophagy/autophagy-lysosome pathway. Mechanistically, the UL21 protein scaffolds the E3 ligase UBE3C (ubiquitin protein ligase E3C) to catalyze the K27-linked ubiquitination of CGAS at Lys384, which is recognized by the cargo receptor TOLLIP (toll interacting protein) and degraded in the lysosome. Additionally, we show that the N terminus of UL21 in PRV is dominant in destabilizing CGAS-mediated innate immunity. Moreover, viral tegument protein UL21 in herpes simplex virus type 1 (HSV-1) also displays the conserved inhibitory mechanisms. Furthermore, by using PRV, we demonstrate the roles of UL21 in degrading CGAS to promote viral infection in vivo. Altogether, these findings describe a distinct pathway where alpha-herpesvirus exploits TOLLIP-mediated selective autophagy to evade host antiviral immunity, highlighting a new interface of interplay between the host and DNA virus.