来自临床分离的结核分枝杆菌的 MHC I 类 / II 限制性 T 细胞表位:开发结核病疫苗的潜在候选者

Niharika Sharma, Bhawna Sharma, Beenu Joshi, Santosh Kumar, Keshar Kunja Mohanty, Hridayesh Prakash
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摘要

结核病是医疗保健系统面临的一大挑战,与结核病相关的死亡率逐年上升。结核病(尤其是潜伏或 MDR 病例)的最佳治疗需要使用亚单位或多肽疫苗等免疫学方法来调整患者的效应免疫。由于 MHC I 类是宿主免疫的有效增强因子,能有效清除多种细胞内病原体或肿瘤。在此背景下,我们探讨了从结核杆菌临床分离物中提取的 MHC-I 限制肽是否可用作增强宿主免疫反应的佐剂。在本研究中,我们从结核杆菌的临床分离物中合成了多种多肽,这些多肽对 I 类 MHC 分子具有高亲和力,可作为 T 细胞或 iNKT 细胞群的潜在免疫增强剂。我们评估了从结核杆菌临床分离株中提取的各种 MHC I 类受限表位(Rv2588c、Rv1357、Rv0148、Rv2973、Rv2557 和 Rv2445)对 T 细胞或 iNKT 细胞增殖、T 细胞分泌的 IFN γ 释放以及作为免疫刺激指示性参数的 NO 的免疫原性潜力。正如预期的那样,FACS 和 ELISA 数据清楚地表明,这些肽对健康和 10 HC PTB 患者的 PBMC 都有潜在的免疫原性。我们的数据清楚地表明,肺结核患者的 PBMC 比健康人的 PBMC 产生了明显的免疫反应,这与增效反应相似。我们的细胞因子和一氧化氮数据进一步揭示了这些肽对先天性免疫反应敏化的影响。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
MHC class I / II restricted T cell epitopes from clinical isolate of Mycobacterium tuberculosis: A potential candidate for vaccine development for Tuberculosis
Tuberculosis is major challenge to the health care system with TB associated death rates increasing annually. Optimum management of TB (particularly latent or MDR cases) warrants use of immunological approaches like subunit or peptide-based vaccination for tailoring effector immunity in patients. Since MHC class I is a potent enhancer element of host immunity and effective in clearing large variety of intracellular pathogens or tumors. In this context, we explore whether MHC-I restricted peptides from clinical isolates of M. tuberculosis can be used as an adjuvant for augmenting host immune responses. In the present study, we have synthesized various peptides from clinical isolates of M. tuberculosis which were having high affinity for Class I MHC molecules as potential immune enhancer for T cell or iNKT cell populations. We have evaluated the immunogenic potential of various MHC class I restricted epitopes (Rv2588c, Rv1357, Rv0148, Rv2973, Rv2557 and Rv2445) which were derived from clinical isolates of M. tuberculosis on increased proliferation of T or iNKT cells, release of IFN gamma secreted by T cells as well as NO as indicative parameters of immuno-stimulation. As expected, FACS and ELISA data clearly revealed that these peptides were potentially immunogenic for PBMCs from both healthy as well as 10 HC PTB patients. Our data clearly demonstrated a significant immune response in the PBMC from w PTB patients over healthy individuals which mimicked booster response. Our cytokine and nitric oxide data further revealed the influence of these peptides on sensitizing innate immune response as well.
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