Combined cART including Tenofovir Disoproxil, Emtricitabine, and Dolutegravir has potent therapeutic effects in HIV-1 infected humanized mice

Cannabis Use in HIV: Impact on Inflammation, Immunity and the Microbiome

PURPOSE OF REVIEW

This review explores how cannabis impacts the gut microbiome, immune system, and ART outcomes in people with HIV (PWH). Given the increasing prevalence of cannabis use among PWH, we investigated its potential to reduce chronic inflammation and enhance gut health, both of which can influence HIV pathogenesis.

RECENT FINDINGS

Cannabis has immunomodulatory and anti-inflammatory effects, including reducing systemic inflammatory biomarkers (such as MCP-1 and IP-10) and improving gut barrier integrity through increased short-chain fatty acid (SCFA) production. Studies have shown that cannabis use is associated with increased gut mucosal immunity, decreased immune activation, and a unique microbiome composition. Preliminary evidence indicates that cannabis may influence HIV reservoirs, although the results remain inconclusive. Cannabis shows promise in managing inflammation, gut dysbiosis, and immune dysfunction in PWH. However, its effects on HIV reservoirs, adherence to antiretroviral therapy, and long-term outcomes need further investigation through rigorous clinical trials using standardized formulations.

Altered Host microRNAomics in HIV Infections: Therapeutic Potentials and Limitations

microRNAs have emerged as essential regulators of health and disease, attracting significant attention from researchers across diverse disciplines. Following their identification as noncoding oligonucleotides intricately involved in post-transcriptional regulation of protein expression, extensive efforts were devoted to elucidating and validating their roles in fundamental metabolic pathways and multiple pathologies. Viral infections are significant modifiers of the host microRNAome. Specifically, the Human Immunodeficiency Virus (HIV), which affects approximately 39 million people worldwide and has no definitive cure, was reported to induce significant changes in host cell miRNA profiles. Identifying and understanding the effects of the aberrant microRNAome holds potential for early detection and therapeutic designs. This review presents a comprehensive overview of the impact of HIV on host microRNAome. We aim to review the cause-and-effect relationship between the HIV-induced aberrant microRNAome that underscores miRNA's therapeutic potential and acknowledge its limitations.

The Humanized Mouse Model: What Added Value Does It Offer for HIV Research?

In the early 2000s, novel humanized mouse models based on the transplantation of human hematopoietic stem and progenitor cells (HSPCs) into immunocompromised mice were introduced (hu mice). The human HSPCs gave rise to a lymphoid system of human origin. The HIV research community has greatly benefitted from these hu mice. Since human immunodeficiency virus (HIV) type 1 infection results in a high-titer disseminated HIV infection, hu mice have been of great value for all types of HIV research from pathogenesis to novel therapies. Since the first description of this new generation of hu mice, great efforts have been expended to improve humanization by creating other immunodeficient mouse models or supplementing mice with human transgenes to improve human engraftment. Many labs have their own customized hu mouse models, making comparisons quite difficult. Here, we discuss the different hu mouse models in the context of specific research questions in order to define which characteristics should be considered when determining which hu mouse model is appropriate for the question posed. We strongly believe that researchers must first define their research question and then determine whether a hu mouse model exists, allowing the research question to be studied.

Synthesis, Biological Evaluation, and Molecular Modeling Studies of New 8-methyl-4-oxo-1,4-dihydroquinoline-3-carbohydrazides as Potential Anti-HIV Agents

Background

The development of a highly safe and potent scaffold is a significant challenge in anti-HIV drug discovery.

Objectives

This study aimed at developing a novel series of anti-HIV agents based on HIV integrase inhibitor pharmacophores.

Methods

A novel series of 8-methyl-4-oxo-1,4-dihydroquinoline-3-carbohydrazide derivatives featuring various substituted benzoyl and N-phenyl carboxamide and carbothioamide moieties were designed and synthesized.

Results

According to the biological evaluation, all the developed compounds were effective against HIV at concentrations lower than 150 µM, associated with no significant cytotoxicity (CC50 > 500 µM).

Conclusions

Compound 8b, possessing a 4-fluorobenzoyl group, was the most potent compound, with an EC50 of 75 µM. Docking studies revealed that the binding modes of designed compounds are similar to the known HIV integrase inhibitors.