Dynamics of the Trypanosoma cruzi infection in adipose tissue: Assessing gene expression of PNPLA2, FASN, and ACAT1 under Benzonidazole treatment and indirect mononuclear immune cells interaction

IF 1.4 4区 医学 Q4 BIOCHEMISTRY & MOLECULAR BIOLOGY Molecular and biochemical parasitology Pub Date : 2024-04-06 DOI:10.1016/j.molbiopara.2024.111618
Ana Carla da Silva , Leyllane Rafael Moreira , Cíntia Nascimento da Costa Oliveira , Claudeir Dias da Silva Júnior , Kleyton Palmeira do Ó , Kamila Kássia Dos Santos Oliveira , Maria Gabriella Nunes De Melo , Ana Karine de Araújo Soares , Milena de Paiva Cavalcanti , Luydson Richardson Silva Vasconcelos , Virginia Maria Barros de Lorena
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Abstract

Trypanosoma cruzi is a parasite with a high capacity to adapt to the host. Animal models have already demonstrated that the tropism of this parasite occurs not only in cardiac/digestive tissues but also in adipose tissue (AT). That said, the consequences of T. cruzi infection for AT and the implications of treatment with Benzonidazole in this tissue are under discussion. Here, we tested the hypothesis that T. cruzi infection in adipose tissue upon treatment with Benzonidazole (Bz) and the interaction of mononuclear immune cells (PBMC) influences the relative expression of ACAT1, FASN, and PNPLA2 genes. Thus, stem cells derived from adipose tissue (ADSC) after adipogenic differentiation were indirectly cultivated with PBMC after infection with the T. cruzi Y strain and treatment with Bz. We use the TcSAT-IAM system and RT-qPCR to evaluate the parasite load and the relative quantification (ΔCt) of the ACAT1, FASN, and PNPLA2 genes. Our results demonstrate that treatment with Bz did not reduce adipocyte infection in the presence (p-value: 0.5796) or absence (p-value: 0.1854) of cultivation with PBMC. In addition, even though there is no statistical difference when compared to the control group (AT), T. cruzi induces the FASN expression (Rq: 14.00). However, treatment with Bz in AT suggests the increases of PNPLA2 expression levels (Rq: 12.58), even in the absence of T. cruzi infection. During indirect cultivation with PBMC, T. cruzi smooths the expression of PNPLA2 (Rq: 0.824) and instigates the expression of ACAT1 (Rq: 1.632) and FASN (Rq: 1.394). Furthermore, the treatment with Bz during infection induces PNPLA2 expression (Rq: 1.871), maintaining FASN expression levels (Rq: 1.334). Given this, our results indicate that treatment with Benzonidazole did not decrease T. cruzi infection in adipose tissue. However, treating the adipocyte cells with Bz during the interaction with PBMC cells influences the lipid pathways scenario, inducing lipolytic metabolism through the expression of PNPLA2.

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脂肪组织中克氏锥虫感染的动态变化:苯并咪唑处理和间接单核免疫细胞相互作用下 PNPLA2、FASN 和 ACAT1 的基因表达评估
克鲁兹锥虫是一种对宿主适应能力很强的寄生虫。动物模型已经证明,这种寄生虫不仅寄生于心脏/消化道组织,还寄生于脂肪组织(AT)。尽管如此,目前仍在讨论T. cruzi感染对脂肪组织的影响以及用苯并咪唑治疗对该组织的影响。在这里,我们测试了这样一个假设:脂肪组织中的T. cruzi感染经苯并咪唑(Bz)处理后,与单核免疫细胞(PBMC)的相互作用会影响ACAT1、FASN和PNPLA2基因的相对表达。因此,在感染 T. cruzi Y 株并经 Bz 处理后,用 PBMC 间接培养脂肪组织分化后的干细胞(ADSC)。我们使用 TcSAT-IAM 系统和 RT-qPCR 评估寄生虫载量以及 ACAT1、FASN 和 PNPLA2 基因的相对定量 (ΔCt)。我们的结果表明,在有 PBMC 培养(p 值:0.5796)或没有 PBMC 培养(p 值:0.1854)的情况下,用 Bz 处理并不会减少脂肪细胞感染。此外,尽管与对照组(AT)相比没有统计学差异,但 T. cruzi 会诱导 FASN 的表达(Rq:14.00)。然而,在 AT 组中使用 Bz 会增加 PNPLA2 的表达水平(Rq:12.58),即使在没有感染 T. cruzi 的情况下也是如此。在用 PBMC 间接培养过程中,T. cruzi 会平滑 PNPLA2 的表达(Rq:0.824),并促进 ACAT1(Rq:1.632)和 FASN(Rq:1.394)的表达。此外,在感染期间用 Bz 处理可诱导 PNPLA2 的表达(Rq:1.871),维持 FASN 的表达水平(Rq:1.334)。有鉴于此,我们的研究结果表明,使用苯并咪唑治疗并不能减少脂肪组织中的克鲁兹绦虫感染。然而,在脂肪细胞与 PBMC 细胞相互作用期间,用 Bz 处理脂肪细胞会影响脂质途径,通过 PNPLA2 的表达诱导脂肪分解代谢。
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来源期刊
CiteScore
2.90
自引率
0.00%
发文量
51
审稿时长
63 days
期刊介绍: The journal provides a medium for rapid publication of investigations of the molecular biology and biochemistry of parasitic protozoa and helminths and their interactions with both the definitive and intermediate host. The main subject areas covered are: • the structure, biosynthesis, degradation, properties and function of DNA, RNA, proteins, lipids, carbohydrates and small molecular-weight substances • intermediary metabolism and bioenergetics • drug target characterization and the mode of action of antiparasitic drugs • molecular and biochemical aspects of membrane structure and function • host-parasite relationships that focus on the parasite, particularly as related to specific parasite molecules. • analysis of genes and genome structure, function and expression • analysis of variation in parasite populations relevant to genetic exchange, pathogenesis, drug and vaccine target characterization, and drug resistance. • parasite protein trafficking, organelle biogenesis, and cellular structure especially with reference to the roles of specific molecules • parasite programmed cell death, development, and cell division at the molecular level.
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