Bioactive phytocompound mulberroside C and endophytes of Morus alba as potential inhibitors of HIV‐1 replication: a mechanistic evaluation

Objectives Despite considerable advancement in antiretroviral therapy, development of safe, effective, and multi‐targeted drugs for HIV still remains a big challenge. Endophytes are untouched and, hence, an important and novel sources in drug discovery endeavours. The present study was conducted to identify the anti‐HIV compounds from Morus alba and endophytes isolated from it. Methods The extracts of isolated endophytes were screened using high‐performance liquid chromatography (HPLC). Further, all samples were analysed for their cytotoxicity using a thiazolyl blue tetrazolium bromide assay. Subsequently, anti‐HIV activity was performed using cell‐based and cell‐free assay. At the end, potential endophytes were identified using gene sequencing. Results A total of 27 endophytes were isolated from the eight stem bark samples of M . alba . Of the 27 endophytes, extracts of total of four endophytes showed a profile similar to the M . alba plant when analysed by HPLC. Further experimentation with extracts of these four endophytes, along with an extract of M .  alba stem bark and its bioactive molecule, mulberroside C, revealed that all these six samples have good inhibitory potential for HIV. Among them, mulberroside C and two endophytic fungal extracts showed very potent anti‐HIV activity. Subsequently, mechanistic studies at the molecular level showed that out of six test samples, three acted as protease inhibitors. Further, all four potential endophytes were identified using gene sequencing. Conclusions The overall findings of these studies can help in the development of a novel anti‐HIV candidate from mulberroside C, an extract of stem bark of M .  alba and extracts of these endophytes. However, further validation and clinical studies are required to develop an anti‐HIV drug.