Arnold Hayer scite author profile

We analyzed the assembly of caveolae in CV1 cells by following the fate of newly synthesized caveolin-1 (CAV1), caveolin-2 and polymerase I and transcript release factor (PTRF)/cavin-1 biochemically and using live-cell imaging. Immediately after synthesis in the endoplasmic reticulum (ER), CAV1 assembled into 8S complexes that concentrated in ER exit sites, due to a DXE sequence in the N-terminal domain. The coat protein II (COPII) machinery allowed rapid transport to the Golgi complex. Accumulating in the medial Golgi, the caveolins lost their diffusional mobility, underwent conformational changes, associated with cholesterol, and eventually assembled into 70S complexes. Together with green fluorescent protein-glycosyl-phosphatidylinositol (GFP-GPI), the newly assembled caveolin scaffolds underwent transport to the plasma membrane in vesicular carriers distinct from those containing vesicular stomatitis virus (VSV) G-protein. After arrival, PTRF/cavin-1 was recruited to the caveolar domains over a period of 25 min or longer. PTRF/cavin-1 itself was present in 60S complexes that also formed in the absence of CAV1. Our study showed the existence of two novel large complexes containing caveolar coat components, and identified a hierarchy of events required for caveolae assembly occurring stepwise in three distinct locations -the ER, the Golgi complex and the plasma membrane.

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Caveolin-1 is ubiquitinated and targeted to intralumenal vesicles in endolysosomes for degradation

Hayer

et al. 2010

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Endolysosomal sorting of ubiquitylated caveolin-1 is regulated by VCP and UBXD1 and impaired by VCP disease mutations

et al. 2011

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The AAA-ATPase VCP/p97 cooperates with distinct cofactors to process ubiquitinated proteins in different cellular pathways 1–3. VCP missense mutations cause a systemic degenerative disease in humans, but the molecular pathogenesis is unclear 4, 5. We used an unbiased mass spectrometry approach and identified a VCP complex with the UBXD1 cofactor, which binds the plasma membrane protein caveolin-1 (Cav1) and whose formation is specifically disrupted by disease-associated mutations. We show that VCP-UBXD1 targets mono-ubiquitinated Cav1 in SDS-resistant high molecular weight complexes on endosomes, which are en route to degradation in endolysosomes 6. Expression of VCP mutant proteins, chemical inhibition of VCP, or siRNA-mediated depletion of UBXD1 leads to a block of Cav1 transport at the limiting membrane of enlarged endosomes in cultured cells. In patient muscle, muscle-specific Caveolin-3 (Cav3) accumulates in sarcoplasmic pools and specifically delocalises from the sarcolemma. These results extend the cellular functions of VCP to mediating sorting of ubiquitinated cargo in the endocytic pathway and suggest that impaired trafficking of caveolin may contribute to the pathogenesis in individuals with VCP mutations.

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A polarized Ca2+, diacylglycerol and STIM1 signalling system regulates directed cell migration

et al. 2014

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Ca2+ signals control cell migration by regulating forward movement and cell adhesion. However, it is not well understood how Ca2+-regulatory proteins and second messengers are spatially organized in migrating cells. Here we show that receptor tyrosine kinase and phospholipase C signaling are restricted to the front of migrating endothelial leader cells, triggering local Ca2+ pulses, local depletion of Ca2+ in the endoplasmic reticulum, and local activation of STIM1, supporting pulsatile front retraction and adhesion. At the same time, the mediator of store-operated Ca2+ influx STIM1 is transported by microtubule plus ends to the front. Furthermore, higher Ca2+ pump rates in the front relative to the back of the plasma membrane enable effective local Ca2+ signaling by locally decreasing basal Ca2+. Finally, polarized phospholipase C signaling generates a diacylglycerol gradient towards the front that promotes persistent forward migration. Thus, cells employ an integrated Ca2+ control system with polarized Ca2+ signaling proteins and second messengers to synergistically promote directed cell migration.

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Engulfed cadherin fingers are polarized junctional structures between collectively migrating endothelial cells

et al. 2016

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The development and maintenance of tissues requires collective cell movement, during which neighboring cells coordinate the polarity of their migration machineries. Here, we ask how polarity signals are transmitted from one cell to another across symmetrical cadherin junctions, during collective migration. We demonstrate that collectively migrating endothelial cells have polarized VE-cadherin-rich membrane protrusions, “cadherin fingers”, which leading cells extend from their rear and follower cells engulf at their front, thereby generating opposite membrane curvatures and asymmetric recruitment of curvature sensing proteins. In follower cells, engulfment of cadherin fingers occurs along with the formation of a lamellipodia-like zone with low actomyosin contractility, and requires VE-cadherin/catenin complexes and Arp2/3-driven actin polymerization. Lateral accumulation of cadherin fingers in follower cells precedes turning, and increased actomyosin contractility can initiate cadherin finger extension as well as engulfment by a neighboring cell, to promote follower behavior. We propose that cadherin fingers serve as guidance cues that direct collective cell migration.

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Arnold Hayer

Biogenesis of Caveolae: Stepwise Assembly of Large Caveolin and Cavin Complexes

Caveolin-1 is ubiquitinated and targeted to intralumenal vesicles in endolysosomes for degradation

Endolysosomal sorting of ubiquitylated caveolin-1 is regulated by VCP and UBXD1 and impaired by VCP disease mutations

A polarized Ca2+, diacylglycerol and STIM1 signalling system regulates directed cell migration

Engulfed cadherin fingers are polarized junctional structures between collectively migrating endothelial cells

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