Pembrolizumab Induces an Unexpected Conformational Change in the CC'-loop of PD-1.
Bernhard RoitherChris OostenbrinkGeorg PfeilerHeinz KölblWolfgang SchreinerPublished in: Cancers (2020)
To improve cancer immunotherapy, a clearer understanding of key targets such as the immune checkpoint receptor PD-1 is essential. The PD-1 inhibitors nivolumab and pembrolizumab were recently approved by the FDA. The CC'-loop of PD-1 has been identified as a hotspot for drug targeting. Here, we investigate the influence of nivolumab and pembrolizumab on the molecular motion of the CC'-loop of PD-1. We performed molecular dynamics simulations on the complete extracellular domain of PD-1, in complex with PD-L1, and the blocking antibodies nivolumab and pembrolizumab. Conformations of the CC'-loop were analyzed unsupervised with the Daura et al. clustering algorithm and multidimensional scaling. Surprisingly, two conformations found were seen to correspond to the 'open' and 'closed' conformation of CC'-loop in apo-PD-1, already known from literature. Unsupervised clustering also surprisingly reproduced the natural ligand, PD-L1, exclusively stabilizing the 'closed' conformation, as also known from literature. Nivolumab, like PD-L1, was found to shift the equilibrium towards the 'closed' conformation, in accordance with the conformational selection model. Pembrolizumab, on the other hand, induced a third conformation of the CC'-loop which has not been described to date: Relative to the conformation 'open' the, CC'-loop turned 180° to form a new conformation which we called 'overturned'. We show that the combination of clustering and multidimensional scaling is a fast, easy, and powerful method in analyzing structural changes in proteins. Possible refined antibodies or new small molecular compounds could utilize the flexibility of the CC'-loop to improve immunotherapy.
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