Abstract:
Background: Human Immunodeficiency Virus (HIV) viral load and CD4+ cell counts are the most commonly usedmarkers for monitoring efficacy of anti-retroviral therapy (ART) in HIV infected individuals. The high cost of viralload monitoring limits its usage in resource limited countries, often leaving the use of CD4+ T cell counts as the onlyalternative. Though cheaper and more readily available, CD4+ cell counts as a measure of detecting treatment failure,is an unreliable predictor of disease progression. Hence, there is a need for more sensitive alternative, but less costlytechniques for detecting treatment failure which can be used in resource limited settings.Objective: To evaluate the feasibility of using plasma CD26/Dipeptidyl peptidase IV (DPPIV) as a novel marker forclinical evaluation of treatment efficacy in HIV infected children.Method: Blood samples collected from HIV+ children (n=76) before and after initiation on ART, were assessed forHIV RNA (viral load), CD4+ T-cell count and DPPIV/CD26 levels. Viral load levels were analyzed using Roche AmplicorHIV-1 Monitor Test kit; CD4+ T-Cell Counts were analyzed using BD FACS Calibur flow cytometer while DPPIV/CD26 levels were analyzed using Human DPPIV/CD26 Quantikine ELISA kit (R&D Systems, Minneapolis MN).Results: The plasma DPPIV/CD26 levels increased significantly in children after ART initiation (p = 0.017), while theviral load levels declined after ART initiation with subsequent CD4+ cell counts increase. The DPPIV/CD 26 increasepositively correlated with viral load decrease while negatively correlating to the CD4+ cell count increase.Conclusion: These findings demonstrate an inverse relationship between DPPIV/CD26 levels and HIV viral load andthe direct proportionality of CD4+ Cell counts and DPPIV/CD26 levels, suggesting potential for use of DPPIV/CD26as a surrogate marker for evaluating HIV disease progression in children receiving anti-retroviral therapy.