Functional insights from a comparative study on the dynamics of Antigen85 proteins and MPT51 from Mycobacterium tuberculosis

Antigen85 (Ag85) proteins of Mycobacterium tuberculosis are mycolyl transferases that aid in cell wall biosynthesis. MPT51 (Ag85D) is closely related to Ag85 proteins. We have performed a comparative molecular dynamics (MD) simulation study of Ag85 proteins (Ag85A, Ag85B, and Ag85C) and MPT51. We observe that helix alpha 5, beta 7-alpha 9 loop, and N-terminal region of helix alpha 9 of Ag85 proteins are mobile, suggestive of lid like movement over the active site. Further, in Ag85B, we observe the proposed scooting mode of the hydrophobic gating residue Phe232. Our simulations also show a similar scooting mode for Phe232 of Ag85A and Trp158 of Ag85C. We also found aromatic residue clusters at the ends of the hydrophobic channel of Ag85 proteins, which may have functional significance. Although MPT51 lacks the tunnel, it has the aromatic clusters. The aromatic cluster region has the ability to bind trehalose. From an immunoinformatics study, a promiscuous linear epitope was identified in MPT51 which could be useful in subunit vaccine studies. Recent studies have shown that a mycobacterial protein HupB, interacts with Ag85 proteins and has a regulatory role in cell wall biogenesis, with implications in growth rate and latency. We performed molecular docking studies of HupB protein with Ag85 proteins and predicted potential sites of interaction in Ag85 proteins. The insights gained through the current study can potentially pave way for newer therapeutic interventions.