Xeni Miliara scite author profile

The composition of the mitochondrial membrane is important for its architecture and proper function. Mitochondria depend on a tightly regulated supply of phospholipid via intra-mitochondrial synthesis and by direct import from the endoplasmic reticulum. The Ups1/PRELI-like family together with its mitochondrial chaperones (TRIAP1/Mdm35) represent a unique heterodimeric lipid transfer system that is evolutionary conserved from yeast to man. Work presented here provides new atomic resolution insight into the function of a human member of this system. Crystal structures of free TRIAP1 and the TRIAP1–SLMO1 complex reveal how the PRELI domain is chaperoned during import into the intermembrane mitochondrial space. The structural resemblance of PRELI-like domain of SLMO1 with that of mammalian phoshatidylinositol transfer proteins (PITPs) suggest that they share similar lipid transfer mechanisms, in which access to a buried phospholipid-binding cavity is regulated by conformationally adaptable loops.

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Structural determinants of lipid specificity within Ups/PRELI lipid transfer proteins

Miliara

Tatsuta

Berry

et al. 2019

Nat Commun

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Conserved lipid transfer proteins of the Ups/PRELI family regulate lipid accumulation in mitochondria by shuttling phospholipids in a lipid-specific manner across the intermembrane space. Here, we combine structural analysis, unbiased genetic approaches in yeast and molecular dynamics simulations to unravel determinants of lipid specificity within the conserved Ups/PRELI family. We present structures of human PRELID1-TRIAP1 and PRELID3b-TRIAP1 complexes, which exert lipid transfer activity for phosphatidic acid and phosphatidylserine, respectively. Reverse yeast genetic screens identify critical amino acid exchanges that broaden and swap their lipid specificities. We find that amino acids involved in head group recognition and the hydrophobicity of flexible loops regulate lipid entry into the binding cavity. Molecular dynamics simulations reveal different membrane orientations of PRELID1 and PRELID3b during the stepwise release of lipids. Our experiments thus define the structural determinants of lipid specificity and the dynamics of lipid interactions by Ups/ PRELI proteins.

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Structural comparison of yeast and human intra-mitochondrial lipid transport systems

Miliara

Matthews

2016

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Mitochondria depend on a tightly regulated supply of phospholipids. The protein of relevant evolutionary and lymphoid interest (PRELI)/Ups1 family together with its mitochondrial chaperones [TP53-regulated inhibitor of apoptosis 1 (TRIAP1)/Mdm35] represents a unique heterodimeric lipid-transfer system that is evolutionary conserved from yeast to man. Recent X-ray crystal structures of the human and yeast systems are compared and discuss here and shed new insight into the mechanism of the PRELI/Ups1 system.

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x-ray structure of the human mitochondrial PRELID1 in complex with TRIAP1

Berry¹,

Miliara²,

Morgan³

et al. 2019

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X-ray structure of the human mitochondrial PRELID3b-TRIAP1 complex

Miliara¹,

Berry²,

Morgan³

et al. 2019

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Xeni Miliara

Structural insight into the TRIAP 1/ PRELI ‐like domain family of mitochondrial phospholipid transfer complexes

Structural determinants of lipid specificity within Ups/PRELI lipid transfer proteins

Structural comparison of yeast and human intra-mitochondrial lipid transport systems

x-ray structure of the human mitochondrial PRELID1 in complex with TRIAP1

X-ray structure of the human mitochondrial PRELID3b-TRIAP1 complex

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