Protective role of TRPV1+ nociceptive neurons communication to macrophages against T. cruzi infection in mice

IF 3.7 Q2 IMMUNOLOGY Brain, behavior, & immunity - health Pub Date : 2024-11-03 DOI:10.1016/j.bbih.2024.100897
Sergio M. Borghi , Aparecida D. Malvezi , Maria Isabel Lovo-Martins , Victor Fattori , Tiago H. Zaninelli , Mariana M. Bertozzi , Camila R. Ferraz , Thiago M. Cunha , Rubia Casagrande , Marli C. Martins-Pinge , Phileno Pinge-Filho , Waldiceu A. Verri Jr.
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Abstract

Chagas’ disease is a life-threatening condition caused by Trypanosoma cruzi. Patients with chronic disease may develop gastrointestinal, neurological, or associated neuro-digestive dysfunctions. CNS invasion by T. cruzi can occur in the acute phase, and its presence in the brain and cerebrospinal fluid was reported. T. cruzi induces nociceptor neuron activation and pain. Nociceptive neurons and macrophage interact in diseases, and this neuroimmune communication has a pivotal role in disease outcome. We investigated, the role of TRPV1+ neurons in experimental T. cruzi infection in mice. T. cruzi forms were observed in the DRG and spinal cord in early stages of acute infection, and intrathecal administration of T. cruzi antigens into spinal cord induced pain. Trpv1 mRNA expression was increased in the DRG of infected mice and targeting TRPV1 reduced T. cruzi-induced pain. TRPV1 nociceptor ablation increased blood parasitemia while TRPV1 knockout mice presented 50% mortality upon infection in a normally non-lethal model. TRPV1 knockout also worsened clinical outcomes (hepatomegaly and megacecum), increased plasmatic Th2 cytokines and nitrite in cardiac tissue, and reduced heart leukocyte infiltration. Conditioned media of capsaicin-stimulated DRG neurons decreased macrophage internalization of T. cruzi, and CGRP receptor antagonism in infected mice reduced pain, increased early parasitemia and promoted 18% mortality. This indicates that soluble mediators released upon nociceptor activation such as CGRP increase macrophage ability to control disease outcome. These data unveil TRPV1+ neurons release CGRP to limit macrophage internalization of T. cruzi, triggering protective mechanisms against T. cruzi infection.
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TRPV1+痛觉神经元与巨噬细胞之间的通信对小鼠感染 T. cruzi 病毒的保护作用
南美锥虫病是一种由克鲁兹锥虫引起的危及生命的疾病。慢性病患者可能会出现胃肠道、神经系统或相关的神经消化功能障碍。克鲁兹锥虫可在急性期侵入中枢神经系统,有报道称其存在于大脑和脑脊液中。T. cruzi 可诱导痛觉神经元激活和疼痛。痛觉神经元和巨噬细胞在疾病中相互作用,这种神经免疫交流在疾病结局中起着关键作用。我们研究了 TRPV1+ 神经元在小鼠实验性 T. cruzi 感染中的作用。在急性感染的早期阶段,在小鼠的DRG和脊髓中观察到了T. cruzi形态,脊髓内注射T. cruzi抗原可诱发疼痛。受感染小鼠的DRG中TRPV1 mRNA表达增加,靶向TRPV1可减少T.TRPV1痛觉感受器消融会增加血液中的寄生虫血症,而TRPV1基因敲除小鼠在正常非致死模型中感染后死亡率为50%。TRPV1 基因敲除也会恶化临床结果(肝肿大和巨结肠),增加血浆 Th2 细胞因子和心脏组织中的亚硝酸盐,减少心脏白细胞浸润。辣椒素刺激 DRG 神经元的条件培养基可减少巨噬细胞对 T. cruzi 的内化,感染小鼠的 CGRP 受体拮抗剂可减轻疼痛、增加早期寄生虫血症并提高 18% 的死亡率。这表明,痛觉感受器激活时释放的可溶性介质(如 CGRP)可增强巨噬细胞控制疾病结果的能力。这些数据揭示了 TRPV1+ 神经元释放 CGRP 以限制巨噬细胞对 T. cruzi 的内化,从而触发保护机制,防止 T. cruzi 感染。
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来源期刊
Brain, behavior, & immunity - health
Brain, behavior, & immunity - health Biological Psychiatry, Behavioral Neuroscience
CiteScore
8.50
自引率
0.00%
发文量
0
审稿时长
97 days
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