Weston B. Struwe scite author profile

The cellular processes underpinning life are orchestrated by proteins and their interactions. The associated structural and dynamic heterogeneity, despite being key to function, poses a fundamental challenge to existing analytical and structural methodologies. We used interferometric scattering microscopy to quantify the mass of single biomolecules in solution with 2% sequence mass accuracy, up to 19-kilodalton resolution, and 1-kilodalton precision. We resolved oligomeric distributions at high dynamic range, detected small-molecule binding, and mass-imaged proteins with associated lipids and sugars. These capabilities enabled us to characterize the molecular dynamics of processes as diverse as glycoprotein cross-linking, amyloidogenic protein aggregation, and actin polymerization. Interferometric scattering mass spectrometry allows spatiotemporally resolved measurement of a broad range of biomolecular interactions, one molecule at a time.

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Composition and Antigenic Effects of Individual Glycan Sites of a Trimeric HIV-1 Envelope Glycoprotein

Behrens

et al. 2016

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SummaryThe HIV-1 envelope glycoprotein trimer is covered by an array of N-linked glycans that shield it from immune surveillance. The high density of glycans on the trimer surface imposes steric constraints limiting the actions of glycan-processing enzymes, so that multiple under-processed structures remain on specific areas. These oligomannose glycans are recognized by broadly neutralizing antibodies (bNAbs) that are not thwarted by the glycan shield but, paradoxically, target it. Our site-specific glycosylation analysis of a soluble, recombinant trimer (BG505 SOSIP.664) maps the extremes of simplicity and diversity of glycan processing at individual sites and reveals a mosaic of dense clusters of oligomannose glycans on the outer domain. Although individual sites usually minimally affect the global integrity of the glycan shield, we identify examples of how deleting some glycans can subtly influence neutralization by bNAbs that bind at distant sites. The network of bNAb-targeted glycans should be preserved on vaccine antigens.

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The role of interfacial lipids in stabilizing membrane protein oligomers

Gupta

Donlan

Hopper

et al. 2017

Nature

373

391

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Oligomerisation of membrane proteins in response to lipid binding plays a critical role in many cell-signaling pathways 1 but is often difficult to define 2 or predict 3. Here we develop a mass spectrometry platform to determine simultaneously presence of interfacial lipids and oligomeric stability and discover how lipids act as key regulators of membrane protein association. Evaluation of oligomeric strength for a dataset of 125 α-helical oligomeric membrane proteins revealed an absence of interfacial lipids in the mass spectra of 12 membrane proteins with high oligomeric stability. For the bacterial homologue of the eukaryotic biogenic transporters (LeuT) 4 one of the proteins with the lowest oligomeric stability, we found a precise cohort of lipids within the dimer interface. Delipidation, mutation of lipid binding sites or expression in cardiolipin (CDL) deficient Escherichia coli, abrogated dimer formation. Molecular dynamics simulation revealed that CDL acts as a bidentate ligand bridging across subunits. Subsequently, we show that for the sugar transporter SemiSWEET from Vibrio splendidus 5, another protein with low oligomeric stability, cardiolipin shifts the equilibrium from monomer to functional dimer. We hypothesised that lipids would be essential for dimerisation of the Na + /H + antiporter NhaA from E. coli, which has the lowest oligomeric strength, but not for substantially more stable, homologous NapA from Thermus thermophilus. We found that lipid binding is obligatory for dimerisation of NhaA, whereas NapA has adapted to form an interface that is stable without lipids. Overall, by correlating interfacial strength with the presence of interfacial lipids we provide a rationale for Competing Financial Interests:The authors declare no competing financial interest Data Availability. The raw data for Figure 1 is provided in the Supplementary Table 1. All other data are available upon request. Europe PMC Funders GroupAuthor Manuscript Nature. Author manuscript; available in PMC 2017 July 19. Europe PMC Funders Author ManuscriptsEurope PMC Funders Author Manuscripts understanding the role of lipids in both transient and stable interactions within a range of α-helical membrane proteins, including GPCRs.The recent surge in structure determination of membrane proteins is providing details of protein-lipid binding 6 and yielding insight into the regulatory roles of lipids 7,8. The advent of mass spectrometry (MS) methods for characterising membrane proteins, individually 9, within interactomes 10, and in intact assemblies 11, is adding new information to potential roles of lipids inducing conformational changes 12, contributing to activity and modulating drug efflux (reviewed in 13). The role of lipids towards maintaining the oligomeric state of membrane proteins has however remained widely debated. To understand this phenomenon we performed a bioinformatics analysis of all the α-helical oligomeric transmembrane proteins with known structures. To gauge their relative stability, we ranked these olig...

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High-resolution mass spectrometry of small molecules bound to membrane proteins

et al. 2016

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Small molecules are known to stabilise membrane proteins and to modulate function and oligomeric state, but their identity is often hard to define. Here we develop and apply a high-resolution, Orbitrap mass spectrometer for intact membrane protein-ligand complexes. Using this platform we resolve the complexity of multiple binding events, quantify small molecule binding and reveal selectivity for endogenous lipids that differ only in acyl chain length.

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Weston B. Struwe

Quantitative mass imaging of single biological macromolecules

Composition and Antigenic Effects of Individual Glycan Sites of a Trimeric HIV-1 Envelope Glycoprotein

The role of interfacial lipids in stabilizing membrane protein oligomers

High-resolution mass spectrometry of small molecules bound to membrane proteins

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