Cryptococcus neoformans infections: aspartyl protease potential to improve outcome in susceptible hosts.

IF 5.1 1区 生物学 Q1 MICROBIOLOGY mBio Pub Date : 2024-11-13 Epub Date: 2024-10-23 DOI:10.1128/mbio.02733-24
Frédérique Vernel-Pauillac, Christine Laurent-Winter, Laurence Fiette, Guilhem Janbon, Vishukumar Aimanianda, Françoise Dromer
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Abstract

Though a confined or a broad population is exposed respectively to endemic or pandemic infections, in the same environment, some individuals resist the development of infections. The attributed reason is the inheritance of a set of immune system genes that can efficiently deal with the pathogens. In this study, we show how outbred mice differentially respond to Cryptococcus neoformans, a fungal pathogen, and the mechanism through which the surviving mice mount a protective immune defense. We identified that those mice developing antibodies specifically against Pep1p, an aspartic protease secreted by C. neoformans, had significantly improved survival. Vaccination (either prophylactic or therapeutic) with a recombinant Pep1p significantly increased the survival of the mice by decreasing the fungal load and stimulating a protective immune response. Passive immunization of C. neoformans-infected mice with monoclonal antibodies developed against Pep1p also improves the survival of the mice by increasing phagocytosis of C. neoformans and decreasing the multiplication of this fungus. Together, these data demonstrate the prophylactic and therapeutic potentials of the C. neoformans antigenic protein Pep1p or Pep1p-specific antibodies against this fungal infection. Also, this study suggests that the immunological interaction and thereby the responses developed against a pathogen guide the hosts to behave differentially against microbial pathogenicity.

Importance: Vaccination and immunotherapies against fungal pathogens still remain a challenge. Here, we show using an in vivo model based on outbred mice that development of antibodies against Pep1p, an antigenic protein of the fungal pathogen Cryptococcus neoformans, confers resistance to this fungal infection. In support of this observation, prophylactic or therapeutic immunization of the mice with recombinant Pep1p could improve their survival when infected with a lethal dose of C. neoformans. Moreover, passive therapy with monoclonal anti-Pep1p antibodies also enhanced survival of the mice from C. neoformans infection. The associated antifungal mechanisms were mounting of a protective immune response and the development of fungal specific antibodies that decrease the fungal burden due to an increase in their phagocytosis and/or inhibit the fungal multiplication. Together, our study demonstrates (a) the mode of host-fungal interaction and the immune response developed thereby play a crucial role in developing resistance against C. neoformans; (b) Pep1p, an aspartic protease as well as an antigenic protein secreted by C. neoformans, can be exploited for vaccination (both prophylactic and therapeutic) or immunotherapy to improve the host defense during this fungal infection.

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新型隐球菌感染:天冬氨酰蛋白酶改善易感宿主预后的潜力。
尽管一个封闭或广泛的人群分别暴露于地方性或大流行性感染,但在相同的环境中,一些个体会抵御感染的发展。究其原因,是遗传了一套能有效对付病原体的免疫系统基因。在这项研究中,我们展示了近亲繁殖的小鼠如何对真菌病原体新生隐球菌做出不同的反应,以及存活下来的小鼠是通过什么机制建立起保护性免疫防御的。我们发现,对新隐球菌分泌的天冬氨酸蛋白酶 Pep1p 产生特异性抗体的小鼠存活率显著提高。接种重组 Pep1p 疫苗(预防性或治疗性)可降低真菌负荷并激发保护性免疫反应,从而显著提高小鼠的存活率。用针对 Pep1p 开发的单克隆抗体被动免疫感染 C. neoformans 的小鼠,也能通过增加对 C. neoformans 的吞噬作用和减少这种真菌的繁殖来提高小鼠的存活率。这些数据共同证明了新变形杆菌抗原蛋白 Pep1p 或 Pep1p 特异性抗体对这种真菌感染的预防和治疗潜力。此外,这项研究还表明,免疫相互作用以及由此产生的针对病原体的反应会引导宿主对微生物的致病性采取不同的行为:重要意义:针对真菌病原体的疫苗接种和免疫疗法仍然是一项挑战。在这里,我们利用一个基于外育小鼠的体内模型表明,针对真菌病原体新生隐球菌的抗原蛋白 Pep1p 产生抗体,可增强对这种真菌感染的抵抗力。为了证实这一观点,当小鼠感染致命剂量的新生隐球菌时,用重组 Pep1p 对其进行预防性或治疗性免疫可提高其存活率。此外,使用单克隆抗 Pep1p 抗体进行被动治疗也能提高小鼠在感染新酵母菌后的存活率。与此相关的抗真菌机制是保护性免疫反应的启动和真菌特异性抗体的产生,这些抗体可通过增加吞噬作用和/或抑制真菌繁殖来减少真菌负担。总之,我们的研究表明:(a)宿主与真菌的相互作用模式以及由此产生的免疫反应在形成对新霉菌的抵抗力方面起着至关重要的作用;(b)Pep1p 是一种天冬氨酸蛋白酶,也是新霉菌分泌的一种抗原蛋白,可用于疫苗接种(预防性和治疗性)或免疫疗法,以提高宿主在真菌感染期间的防御能力。
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来源期刊
mBio
mBio MICROBIOLOGY-
CiteScore
10.50
自引率
3.10%
发文量
762
审稿时长
1 months
期刊介绍: mBio® is ASM''s first broad-scope, online-only, open access journal. mBio offers streamlined review and publication of the best research in microbiology and allied fields.
期刊最新文献
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