Computational Design of a Highly-Specific HVEM-Based Inhibitor of LIGHT Protein

Abstract

MotivationHVEM-LIGHT binding regulates the immune system response in various ways: it co-stimulates T cell proliferation; promotes B cell differentiation and secretion of immunoglobulins; and enhances dendritic cell maturation. Strong and prolonged stimulation of T cells to proliferate causes high levels of IFN–γ, which leads to chronic inflammation and is the reason for various autoimmune diseases. Therefore, blocking HVEM-LIGHT interaction may be a way to cure these diseases and prevent adverse reaction in organ and tissue transplantation.ResultsIn this work, we designed 62 peptides based on the CRDs of the HVEM structure, differentiating in the number and combination of disulfide bonds present. Based on extensive all-atom MD simulations in state-of-the-art force fields, followed by MM-GBSA binding energy estimation, we selected the most promising CRD2 variants interacting with LIGHT. Several point mutations of these variants provided us with the most strongly binding moiety: the CRD2 with a single disulfide bond (C58-C73) and K54E substitution. This result was supprased only by the truncated variants of CRD2(39-73) with the same disulfide bond present. The binding mechanism was investigated by the use of steered MD simulations, which showed the increased binding affinity of the abovementioned variants, while experimental circular dichroism was used to determine their structural properties.Availability and ImplementationThree PDB models of the LIGHT inhibitors: PM0084527, PM0084528, and PM0084592.Contactpkrupa@ifpan.edu.plSupplementary informationOnline supplementary data is available at: .