Aaron Baublis scite author profile

Aaron Baublis

5Publications

34Citation Statements Received

614Citation Statements Given

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418

572

Affiliations

Harvard University

Publications

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Synaptic vesicle proteins and ATG9A self-organize in distinct vesicle phases within synapsin condensates

Park

Wang

et al. 2023

Nat Commun

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Ectopic expression in fibroblasts of synapsin 1 and synaptophysin is sufficient to generate condensates of vesicles highly reminiscent of synaptic vesicle (SV) clusters and with liquid-like properties. Here we show that unlike synaptophysin, other major integral SV membrane proteins fail to form condensates with synapsin, but co-assemble into the clusters formed by synaptophysin and synapsin in this ectopic expression system. Another vesicle membrane protein, ATG9A, undergoes activity-dependent exo-endocytosis at synapses, raising questions about the relation of ATG9A traffic to the traffic of SVs. We find that both in fibroblasts and in nerve terminals ATG9A does not co-assemble into synaptophysin-positive vesicle condensates but localizes on a distinct class of vesicles that also assembles with synapsin but into a distinct phase. Our findings suggest that ATG9A undergoes differential sorting relative to SV proteins and also point to a dual role of synapsin in controlling clustering at synapses of SVs and ATG9A vesicles.

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FALCON systematically interrogates free fatty acid biology and identifies a novel mediator of lipotoxicity

Wieder

Fried

Kim

et al. 2023

Preprint

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Cellular exposure to free fatty acids (FFA) is implicated in the pathogenesis of obesity-associated diseases. However, studies to date have assumed that a few select FFAs are representative of broad structural categories, and there are no scalable approaches to comprehensively assess the biological processes induced by exposure to diverse FFAs circulating in human plasma. Furthermore, assessing how these FFA-mediated processes interact with genetic risk for disease remains elusive. Here we report the design and implementation of FALCON (Fatty Acid Library for Comprehensive ONtologies) as an unbiased, scalable and multimodal interrogation of 61 structurally diverse FFAs. We identified a subset of lipotoxic monounsaturated fatty acids (MUFAs) with a distinct lipidomic profile associated with decreased membrane fluidity. Furthermore, we developed a new approach to prioritize genes that reflect the combined effects of exposure to harmful FFAs and genetic risk for type 2 diabetes (T2D). Importantly, we found that c-MAF inducing protein (CMIP) protects cells from exposure to FFAs by modulating Akt signaling and we validated the role of CMIP in human pancreatic beta cells. In sum, FALCON empowers the study of fundamental FFA biology and offers an integrative approach to identify much needed targets for diverse diseases associated with disordered FFA metabolism.

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Proximity-Dependent Biotinylation and Identification of Flagellar Proteins in Trypanosoma cruzi

Won

Baublis

Burleigh

2023

mSphere

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Proximity-dependent biotinylation and identification of flagellar proteins inTrypanosoma cruzi

Won

Baublis

Burleigh

2023

Preprint

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The flagellated kinetoplastid protozoan and causative agent of human Chagas disease,Trypanosoma cruzi, inhabits both invertebrate and mammalian hosts over the course of its complex life cycle. In these disparate environments,T. cruziuses its single flagellum to propel motile life stages and in some instances, to establish intimate contact with the host. Beyond its role in motility, the functional capabilities of theT. cruziflagellum have not been defined. Moreover, the lack of proteomic information for this organelle, in any parasite life stage, has limited functional investigation. In this study, we employed a proximity-dependent biotinylation approach based on the differential targeting of the biotin ligase, TurboID, to the flagellum or cytosol in replicative stages ofT. cruzi, to identify flagellar-enriched proteins by mass spectrometry. Proteomic analysis of the resulting biotinylated protein fractions yielded 218 candidate flagellar proteins inT. cruziepimastigotes (insect stage) and 99 proteins in intracellular amastigotes (mammalian stage). Forty of these flagellar-enriched proteins were common to both parasite life stages and included orthologs of known flagellar proteins in other trypanosomatid species, proteins specific to theT. cruzilineage and hypothetical proteins. With the validation of flagellar localization for several of the identified candidates, our results demonstrate that TurboID-based proximity proteomics is an effective tool for probing subcellular compartments inT. cruzi. The proteomic datasets generated in this work offer a valuable resource to facilitate functional investigation of the understudiedT. cruziflagellum.

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Synaptic vesicle proteins and ATG9A self-organize in distinct vesicle phases within synapsin condensates

Park

Baublis

et al. 2022

Preprint

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Ectopic expression in fibroblasts of synapsin 1 and synaptophysin is sufficient to generate condensates of vesicles highly reminiscent of synaptic vesicle (SV) clusters and with liquid-like properties. We show that unlike synaptophysin, other major integral SV membrane proteins fail to form condensates with synapsin, but coassemble into the clusters formed by synaptophysin and synapsin in this ectopic expression system. Another vesicle membrane protein, ATG9A, undergoes activity-dependent exo-endocytosis at synapses, raising questions about the relation of ATG9A traffic to the traffic of SVs. We have found that both in fibroblasts and in nerve terminals ATG9A does not coassemble into synaptophysin-positive vesicle condensates but localizes on a distinct class of vesicles that also assembles with synapsin but into a distinct phase. Our findings suggest that ATG9A undergoes differential sorting relative to SV proteins and also point to a dual role of synapsin in controlling clustering at synapses of SVs and ATG9A vesicles.

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Aaron Baublis

Synaptic vesicle proteins and ATG9A self-organize in distinct vesicle phases within synapsin condensates

FALCON systematically interrogates free fatty acid biology and identifies a novel mediator of lipotoxicity

Proximity-Dependent Biotinylation and Identification of Flagellar Proteins in Trypanosoma cruzi

Proximity-dependent biotinylation and identification of flagellar proteins inTrypanosoma cruzi

Synaptic vesicle proteins and ATG9A self-organize in distinct vesicle phases within synapsin condensates

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