Cecilia T Costiniuk, Suzanne Samarani, Lixing Wang, MariaLuisa Vigano, Ali Ahmad
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引用次数: 0
Abstract
While antiretroviral therapy (ART) has revolutionized the management of human immunodeficiency virus (HIV) and has enabled people living with HIV (PLWH) to achieve near-normal life expectancies, an HIV cure remains elusive due to the presence of HIV reservoirs. Furthermore, compared with individuals in the general population, PLWH support a higher burden of multimorbidity, including pulmonary diseases of both an infectious and non-infection nature, which may be a consequence of the formation of HIV reservoirs. Their gut, lymph nodes, brain, testes and lungs constitute important anatomic sites for the reservoirs. While CD4+ T cells, and particularly memory CD4+ T cells, are the best characterized cellular HIV reservoirs, tissue resident macrophages (TRM) and alveolar macrophages (AM) also harbor HIV infection. AM are the most abundant cells in bronchoalveolar (BAL) fluid in healthy conditions, and act as sentinels in the alveolar space by patrolling and clearing debris, microbes and surfactant recycling. Long-lived tissue-resident AM of embryonic origin have the capacity of self-renewal without replenishment from peripheral monocytes. As in other tissues, close cell-cell contacts in lungs also provide a milieu conducive for cell-to-cell spread of HIV infection and establishment of reservoirs. As lungs are in constant exposure to antigens from the external environment, this situation contributes to pro-inflammatory phenotype rendering pulmonary immune cells exhausted and senescent-an environment facilitating HIV persistence. Factors such as tobacco and e-cigarette smoking, lung microbiome dysbiosis and respiratory coinfections further drive antigenic stimulation and HIV replication. HIV replication, in turn, contributes to ongoing inflammation and clonal expansion. Herein, the potential role of AM in HIV persistence is discussed. Furthermore, their contribution towards pulmonary inflammation and immune dysregulation, which may in turn render PLWH susceptible to chronic lung disease, despite ART, is explored. Finally, strategies to eliminate HIV-infected AM are discussed.
虽然抗逆转录病毒疗法(ART)彻底改变了人类免疫缺陷病毒(HIV)的治疗方法,并使艾滋病病毒感染者(PLWH)的预期寿命接近正常人,但由于艾滋病病毒库的存在,治愈艾滋病病毒仍然遥遥无期。此外,与普通人群相比,艾滋病毒感染者的多病负担更重,包括感染性和非感染性肺部疾病,这可能是艾滋病毒储库形成的结果。他们的肠道、淋巴结、大脑、睾丸和肺部是艾滋病病毒库的重要解剖部位。虽然 CD4+ T 细胞,尤其是记忆 CD4+ T 细胞,是特征最明显的细胞艾滋病病毒库,但组织常驻巨噬细胞(TRM)和肺泡巨噬细胞(AM)也携带艾滋病病毒感染。在健康状态下,AM 是支气管肺泡(BAL)液中最丰富的细胞,通过巡逻和清除碎片、微生物和表面活性物质循环,在肺泡空间充当哨兵。胚胎来源的长寿命组织驻留 AM 具有自我更新能力,无需外周单核细胞的补充。与其他组织一样,肺部细胞间的密切接触也为 HIV 感染的细胞间传播和储库的建立提供了有利环境。由于肺部经常接触外部环境中的抗原,这种情况会导致促炎表型,使肺部免疫细胞衰竭和衰老--这种环境有利于艾滋病病毒的持续存在。吸烟和吸电子烟、肺部微生物群失调和呼吸道合并感染等因素进一步推动了抗原刺激和艾滋病毒复制。反过来,HIV 复制又会导致持续的炎症和克隆扩增。本文讨论了AM在艾滋病病毒持续存在中的潜在作用。此外,还探讨了 AM 对肺部炎症和免疫调节失调的作用,这反过来又可能使感染艾滋病毒的 PLWH 在接受抗逆转录病毒疗法后仍易患慢性肺病。最后,讨论了消除感染艾滋病毒的 AM 的策略。
期刊介绍:
Virologie offers top-level information for all those for whom virology is already the main or an important part of their activity: biologists, clinicians, pharmacists, veterinarians, agronomists, etc.