Endolytix Technology Inc., Beverly, Massachusetts, USA.
Department of Microbiology, Immunology, and Pathology, Colorado State University, Fort Collins, Colorado, USA.
Microbiol Spectr. 2024 May 2;12(5):e0353423. doi: 10.1128/spectrum.03534-23. Epub 2024 Mar 27.
To address intracellular mycobacterial infections, we developed a cocktail of four enzymes that catalytically attack three layers of the mycobacterial envelope. This cocktail is delivered to macrophages, through a targeted liposome presented here as ENTX_001. Endolytix Cocktail 1 (EC1) leverages mycobacteriophage lysin enzymes LysA and LysB, while also including α-amylase and isoamylase for degradation of the mycobacterial envelope from outside of the cell. The LysA family of proteins from mycobacteriophages has been shown to cleave the peptidoglycan layer, whereas LysB is an esterase that hydrolyzes the linkage between arabinogalactan and mycolic acids of the mycomembrane. The challenge of gaining access to the substrates of LysA and LysB provided exogenously was addressed by adding amylase enzymes that degrade the extracellular capsule shown to be present in . This enzybiotic approach avoids antimicrobial resistance, specific receptor-mediated binding, and intracellular DNA surveillance pathways that limit many bacteriophage applications. We show this cocktail of enzymes is bactericidal against both rapid- and slow-growing nontuberculous mycobacteria (NTM) as well as strains. The EC1 cocktail shows superior killing activity when compared to previously characterized LysB alone. EC1 is also powerfully synergistic with standard-of-care antibiotics. In addition to killing of NTM, ENTX_001 demonstrates the rescue of infected macrophages from necrotic death by and . Here, we demonstrate shredding of mycobacterial cells by EC1 into cellular debris as a mechanism of bactericide.IMPORTANCEThe world needs entirely new forms of antibiotics as resistance to chemical antibiotics is a critical problem facing society. We addressed this need by developing a targeted enzyme therapy for a broad range of species and strains within mycobacteria and highly related genera including nontuberculous mycobacteria such as , , as well as . One advantage of this approach is the ability to drive our lytic enzymes through encapsulation into macrophage-targeted liposomes resulting in attack of mycobacteria in the cells that harbor them where they hide from the adaptive immune system and grow. Furthermore, this approach shreds mycobacteria independent of cell physiology as the drug targets the mycobacterial envelope while sidestepping the host range limitations observed with phage therapy and resistance to chemical antibiotics.
为了应对细胞内分枝杆菌感染,我们开发了一种由四种酶组成的鸡尾酒,可催化攻击分枝杆菌包膜的三层结构。这种鸡尾酒通过这里展示的靶向脂质体递送到巨噬细胞中,作为 ENTX_001。Endolytix Cocktail 1(EC1)利用分枝杆菌噬菌体溶菌酶 LysA 和 LysB,同时还包括α-淀粉酶和异淀粉酶,用于从细胞外部降解分枝杆菌包膜。分枝杆菌噬菌体的 LysA 家族蛋白已被证明可切割肽聚糖层,而 LysB 是一种酯酶,可水解细胞壁阿拉伯半乳聚糖和mycolic 酸之间的连接。通过添加淀粉酶酶来解决外源添加 LysA 和 LysB 的底物的可及性问题,这些酶可以降解存在于 中的细胞外胶囊。这种酶生素方法避免了抗微生物耐药性、特异性受体介导的结合以及限制许多噬菌体应用的细胞内 DNA 监测途径。我们表明,这种酶混合物对快速和缓慢生长的非结核分枝杆菌(NTM)以及 菌株均具有杀菌作用。与单独的先前表征的 LysB 相比,EC1 鸡尾酒显示出优越的杀菌活性。EC1 还与标准护理抗生素具有强大的协同作用。除了对 NTM 的杀伤外,ENTX_001 还证明了通过 和 从坏死死亡中拯救感染的巨噬细胞。在这里,我们证明了 EC1 将分枝杆菌细胞碎裂成细胞碎片作为杀菌机制。重要性 世界需要全新形式的抗生素,因为对抗生素的耐药性是社会面临的一个关键问题。我们通过开发针对分枝杆菌和高度相关属(包括非结核分枝杆菌如 、 、 以及 )内广泛物种和菌株的靶向酶治疗来解决这一需求。这种方法的一个优点是能够将我们的溶菌酶通过封装到巨噬细胞靶向脂质体中驱动,从而导致隐藏在适应性免疫系统中的细胞中对分枝杆菌的攻击并在那里生长。此外,这种方法独立于细胞生理学将分枝杆菌撕碎,因为药物靶向分枝杆菌包膜,同时避免了噬菌体治疗观察到的宿主范围限制和对抗生素的耐药性。
