- Almodovar, Sharilyn;
- Wade, Brandy E;
- Porter, Kristi M;
- Smith, Justin M;
- Lopez-Astacio, Robert A;
- Bijli, Kaiser;
- Kang, Bum-Yong;
- Cribbs, Sushma K;
- Guidot, David M;
- Molehin, Deborah;
- McNair, Bryan K;
- Pumarejo-Gomez, Laura;
- Perez Hernandez, Jaritza;
- Salazar, Ethan A;
- Martinez, Edgar G;
- Huang, Laurence;
- Kessing, Cari F;
- Suarez-Martinez, Edu B;
- Pruitt, Kevin;
- Hsue, Priscilla Y;
- Tyor, William R;
- Flores, Sonia C;
- Sutliff, Roy L
Pulmonary Arterial Hypertension (PAH) is overrepresented in People Living with Human Immunodeficiency Virus (PLWH). HIV protein gp120 plays a key role in the pathogenesis of HIV-PAH. Genetic changes in HIV gp120 determine viral interactions with chemokine receptors; specifically, HIV-X4 viruses interact with CXCR4 while HIV-R5 interact with CCR5 co-receptors. Herein, we leveraged banked samples from patients enrolled in the NIH Lung HIV studies and used bioinformatic analyses to investigate whether signature sequences in HIV-gp120 that predict tropism also predict PAH. Further biological assays were conducted in pulmonary endothelial cells in vitro and in HIV-transgenic rats. We found that significantly more persons living with HIV-PAH harbor HIV-X4 variants. Multiple HIV models showed that recombinant gp120-X4 as well as infectious HIV-X4 remarkably increase arachidonate 5-lipoxygenase (ALOX5) expression. ALOX5 is essential for the production of leukotrienes; we confirmed that leukotriene levels are increased in bronchoalveolar lavage fluid of HIV-infected patients. This is the first report associating HIV-gp120 genotype to a pulmonary disease phenotype, as we uncovered X4 viruses as potential agents in the pathophysiology of HIV-PAH. Altogether, our results allude to the supplementation of antiretroviral therapy with ALOX5 antagonists to rescue patients with HIV-X4 variants from fatal PAH.