Author: Yoon, HyeJin; Jeong, Hyunah; Lee, Hyung Ho; Jang, Soonmin
Title: Molecular dynamics study with mutation shows that Nâ€terminal domain (NTD) structural reâ€orientation in NPC1 is required for proper alignment of cholesterol transport Cord-id: ltwili6g Document date: 2020_8_16
ID: ltwili6g
Snippet: The lysosomal membrane protein NPC1 (Niemannâ€Pick type C1) and NPC2 (Niemannâ€Pick type C2) are main players of cholesterol control in the lysosome and it is known that the mutation on these proteins leads to the cholesterol trafficking related neurodegenerative disease, which is called the Niemannâ€Pick disease type C (NPC) disease. The mutation R518W or R518Q on the NPC1 is one of type of diseaseâ€related mutation that causes cholesterol transports to be cut in half, which results in the
Document: The lysosomal membrane protein NPC1 (Niemannâ€Pick type C1) and NPC2 (Niemannâ€Pick type C2) are main players of cholesterol control in the lysosome and it is known that the mutation on these proteins leads to the cholesterol trafficking related neurodegenerative disease, which is called the Niemannâ€Pick disease type C (NPC) disease. The mutation R518W or R518Q on the NPC1 is one of type of diseaseâ€related mutation that causes cholesterol transports to be cut in half, which results in the accumulation of cholesterol and lipids in the late endosomal/lysosomal compartment of the cell. Even though there has been significant progress with understanding the cholesterol transport by NPC1 in combination with NPC2, especially after the structural determination of the full length NPC1 in 2016, many details such as the interaction of the full length NPC1 with the NPC2, the molecular motions responsible for the cholesterol transport during and after this interaction, and the structure and the function relations of many mutations are still not well understood. In this paper, we report the extensive molecular dynamics simulations in order to gain insight into the structure and the dynamics of NPC1 lumenal domain for the cholesterol transport and the disease behind the mutation (R518W). It was found that the mutation induces a structural shift of the NTD (Nâ€terminal domain), toward the loop region in the MLD (middle lumenal domain), which is believed to play a central role in the interaction with NPC2 protein, so the interaction with the NPC2 protein might be less favorable compared to the wild NPC1. Also, the simulation indicates the possible reâ€orientation of the NTD with both the wild and the R518W mutated NPC1 after receiving the cholesterol from the NPC2, that align to form an internal tunnel, which is a possible pose for further action in cholesterol trafficking. We believe the current study can provide a better understanding of the cholesterol transport by NPC1 especially the role of NTD of NPC1 in combination with NPC2 interactions.
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