Hemolymph of triatomines presents fungistatic activity against Cryptococcus neoformans and improves macrophage function through MCP-I/TNF-α increase.

IF 1.8 3区医学 Q4 TOXICOLOGY

Journal of Venomous Animals and Toxins Including Tropical Diseases Pub Date : 2022-07-18 eCollection Date: 2022-01-01 DOI:10.1590/1678-9199-JVATITD-2021-0124

Luísa Menezes-Silva, Jonatas da Silva Catarino, Laura Caroline de Faria, Bárbara Cristina Pizzolante, Leonardo Eurípedes Andrade-Silva, Marcos Vinicius da Silva, Virmondes Rodrigues, Helioswilton Sales-Campos, Carlo José Freire Oliveira

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Abstract

Background: Triatomines are blood-feeding arthropods belonging to the subfamily Triatominae (Hemiptera; Reduviidae), capable of producing immunomodulatory and water-soluble molecules in their hemolymph, such as antimicrobial peptides (AMPs). In this work, we evaluated the antifungal and immunomodulatory activity of the hemolymph of Meccus pallidipennis (MPH) and Rhodnius prolixus (RPH) against Cryptococcus neoformans.

Methods: We assessed the activity of the hemolymph of both insects on fungal growth by a minimum inhibitory concentration (MIC) assay. Further, RAW 264.7 macrophages were cultivated with hemolymph and challenged with C. neoformans. Then, their phagocytic and killing activities were assessed. The cytokines MCP-1, IFN-γ, TNF-α, IL-10, IL-12, and IL-6 were measured in culture supernatants 4- and 48-hours post-infection.

Results: Both hemolymph samples directly affected the growth rate of the fungus in a dose-dependent manner. Either MPH or RPH was capable of inhibiting fungal growth by at least 70%, using the lowest dilution (1:20). Treatment of RAW 264.7 macrophages with hemolymph of both insects was capable of increasing the production of MCP-I and TNF-α. In addition, when these cells were stimulated with hemolymph in the presence of C. neoformans, a 2- and a 4-fold increase in phagocytic rate was observed with MPH and RPH, respectively, when compared to untreated cells. For the macrophage killing activity, MPH decreased in approximately 30% the number of viable yeasts inside the cells compared to untreated control; however, treatment with RPH could not reduce the total number of viable yeasts. MPH was also capable of increasing MHC-II expression on macrophages. Regarding the cytokine production, MCP-I and TNF-α, were increased in the supernatant of macrophages treated with both hemolymphs, 4 and 48 hours after stimulation.

Conclusion: These results suggested that hemolymph of triatomines may represent a source of molecules capable of presenting antifungal and immunomodulatory activity in macrophages during fungal infection.

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三纹虫的血淋巴具有抗新生隐球菌的杀真菌活性，并通过增加 MCP-I/TNF-α 改善巨噬细胞功能。

背景：三足虫是属于三足亚科（半翅目；Reduviidae）的食血节肢动物，能够在其血淋巴中产生免疫调节和水溶性分子，如抗菌肽（AMPs）。在这项工作中，我们评估了苍蝇（Meccus pallidipennis，MPH）和蚜蝇（Rhodnius prolixus，RPH）血淋巴对新型隐球菌的抗真菌和免疫调节活性：我们通过最低抑菌浓度（MIC）测定法评估了这两种昆虫的血淋巴对真菌生长的活性。此外，用血淋巴培养 RAW 264.7 巨噬细胞，并用新霉菌进行挑战。然后，对它们的吞噬和杀伤活性进行评估。在感染后 4 小时和 48 小时，测量了培养上清液中的细胞因子 MCP-1、IFN-γ、TNF-α、IL-10、IL-12 和 IL-6：结果：两种血淋巴样本都以剂量依赖的方式直接影响真菌的生长速度。使用最低稀释度（1:20），MPH 或 RPH 都能抑制真菌生长至少 70%。用这两种昆虫的血淋巴处理 RAW 264.7 巨噬细胞能增加 MCP-I 和 TNF-α 的产生。此外，当这些细胞在有 C. neoformans 存在的情况下受到血淋巴刺激时，与未处理的细胞相比，MPH 和 RPH 的吞噬率分别增加了 2 倍和 4 倍。在巨噬细胞杀伤活性方面，与未处理的对照组相比，MPH 可使细胞内存活的酵母菌数量减少约 30%；然而，用 RPH 处理并不能减少存活酵母菌的总数。MPH 还能增加巨噬细胞上 MHC-II 的表达。在细胞因子的产生方面，经两种血淋巴处理的巨噬细胞在受刺激 4 小时和 48 小时后的上清液中，MCP-I 和 TNF-α 均有所增加：这些结果表明，在真菌感染期间，三纹虫的血淋巴可能是一种能够在巨噬细胞中产生抗真菌和免疫调节活性的分子源。

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来源期刊

Journal of Venomous Animals and Toxins Including Tropical Diseases 医学-毒理学

CiteScore

4.80

自引率

8.30%

发文量

审稿时长

6-12 weeks

期刊介绍： Journal of Venomous Animals and Toxins including Tropical Diseases (JVATiTD) is a non-commercial academic open access publication dedicated to research on all aspects of toxinology, venomous animals and tropical diseases. Its interdisciplinary content includes original scientific articles covering research on toxins derived from animals, plants and microorganisms. Topics of interest include, but are not limited to:systematics and morphology of venomous animals;physiology, biochemistry, pharmacology and immunology of toxins;epidemiology, clinical aspects and treatment of envenoming by different animals, plants and microorganisms;development and evaluation of antivenoms and toxin-derivative products;epidemiology, clinical aspects and treatment of tropical diseases (caused by virus, bacteria, algae, fungi and parasites) including the neglected tropical diseases (NTDs) defined by the World Health Organization.