Ipinmoroti Ayodeji O, Pandit Rachana, Crenshaw Brennetta J, Sims Brian, Matthews Qiana L
Microbiology Program, Alabama State University, Montgomery, AL, United States.
Departments of Pediatrics and Cell, Developmental and Integrative Biology, Division of Neonatology, University of Alabama at Birmingham, Birmingham, AL, United States.
Front Pharmacol. 2024 Feb 21;15:1339862. doi: 10.3389/fphar.2024.1339862. eCollection 2024.
Drug repurposing is fast growing and becoming an attractive approach for identifying novel targets, such as exosomes for cancer and antiviral therapy. Exosomes are a specialized class of extracellular vesicles that serve as functional mediators in intercellular communication and signaling that are important in normal physiological functions. A continuously growing body of evidence has established a correlation between the abnormal release of exosomes with various viral disease pathologies including cancer. Cells that are virus-infected release exosomes known to influence the process via the loading and transfer of viral components, such as miRNA, small (s) RNA, DNA, and proteins. Inhibition of exosome release may abate the spread and severity of viral infection, thus making exosomes an attractive target for antiviral therapies. We previously demonstrated the pharmacological inhibition of exosomes. Herein, we used a cell-based assay to determine the effect of Human adenovirus type 3 (HAdV3) on the exosome inhibition process by azole and Heparin derivatives. HAdV3-infected cells were treated with two concentrations of each inhibitor at different time points. HAdV3 activities led to increased total sRNA, DNA, and exosome particle concentrations via particle tracking in the presence of Climbazole and Heparin relative to uninfected exosomes. In addition, there was an increased expression of classical markers such as ALG-2 interacting protein X (ALIX), and tetraspanin (CD63), ( < 0.05) and upregulated transcription factor interferon regulatory factor (IRF) 8 in the presence of HAdV3 after 24 hours (h) of treatment. Whereas higher concentrations of Climbazole and Heparin sodium salt were found to inhibit total exosome protein ( < 0.001) and exo-RNA ( < 0.01) content even in the presence of HAdV3 relative to infected exosomes only. Activities of HAdV3 in the presence of selected inhibitors resulted in the positive regulation of exosome related DNA damage/repair signaling proteins. Blocking exosome secretion partially obstructed viral entry. Immunological studies revealed that HAdV3 fiber protein levels in A549 cells were reduced at all concentrations of Climbazole and Heparin and both multiplicities of infections ( < 0.001). Our findings suggest that while HAdV may bolster inhibited exosome content and release when modulating certain activities of the endosomal pathway mediators, HAdV entry might be constrained by the activities of these pharmacological agents.
药物重新利用正在迅速发展,并成为识别新靶点的一种有吸引力的方法,例如用于癌症和抗病毒治疗的外泌体。外泌体是一类特殊的细胞外囊泡,在细胞间通讯和信号传导中作为功能介质,在正常生理功能中起重要作用。越来越多的证据表明,外泌体的异常释放与包括癌症在内的各种病毒疾病病理之间存在关联。被病毒感染的细胞会释放外泌体,已知这些外泌体通过病毒成分(如微小RNA、小RNA、DNA和蛋白质)的装载和转移来影响这一过程。抑制外泌体释放可能会减轻病毒感染的传播和严重程度,因此使外泌体成为抗病毒治疗的一个有吸引力的靶点。我们之前证明了对外泌体的药理学抑制作用。在此,我们使用基于细胞的测定法来确定3型人腺病毒(HAdV3)对唑类和肝素衍生物外泌体抑制过程的影响。在不同时间点用每种抑制剂的两种浓度处理感染HAdV3的细胞。相对于未感染的外泌体,在存在克霉唑和肝素的情况下,通过颗粒追踪发现HAdV3活性导致总小RNA、DNA和外泌体颗粒浓度增加。此外,在处理24小时后,在存在HAdV3的情况下,经典标志物如ALG - 2相互作用蛋白X(ALIX)和四跨膜蛋白(CD63)的表达增加(P < 0.05),转录因子干扰素调节因子(IRF)8上调。而相对于仅感染的外泌体,即使在存在HAdV3的情况下,发现较高浓度的克霉唑和肝素钠也能抑制总外泌体蛋白(P < 0.001)和外泌体RNA(P < 0.01)含量。在存在选定抑制剂的情况下,HAdV3的活性导致外泌体相关DNA损伤/修复信号蛋白的正向调节。阻断外泌体分泌部分阻碍了病毒进入。免疫学研究表明,在所有浓度的克霉唑和肝素以及两种感染复数下,A549细胞中HAdV3纤维蛋白水平均降低(P < 0.001)。我们的研究结果表明,虽然HAdV在调节内体途径介质的某些活性时可能会增强外泌体含量和释放的抑制,但这些药理学试剂的活性可能会限制HAdV的进入。
