Pedro Carvalho scite author profile

Lipid droplets are storage organelles at the centre of lipid and energy homeostasis. They have a unique architecture consisting of a hydrophobic core of neutral lipids, which is enclosed by a phospholipid monolayer that is decorated by a specific set of proteins. Originating from the endoplasmic reticulum, lipid droplets can associate with most other cellular organelles through membrane contact sites. It is becoming apparent that these contacts between lipid droplets and other organelles are highly dynamic and coupled to the cycles of lipid droplet expansion and shrinkage. Importantly, lipid droplet biogenesis and degradation, as well as their interactions with other organelles, are tightly coupled to cellular metabolism and are critical to buffer the levels of toxic lipid species. Thus, lipid droplets facilitate the coordination and communication between different organelles and act as vital hubs of cellular metabolism.

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Distinct Ubiquitin-Ligase Complexes Define Convergent Pathways for the Degradation of ER Proteins

Carvalho

Goder

Rapoport

2006

Cell

671

775

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Many misfolded endoplasmic reticulum (ER) proteins are eliminated by ERAD, a process in which substrates are polyubiquitylated and moved into the cytosol for proteasomal degradation. We have identified in S. cerevisiae distinct ubiquitin-ligase complexes that define different ERAD pathways. Proteins with misfolded ER-luminal domains use the ERAD-L pathway, in which the Hrd1p/Hrd3p ligase forms a near stoichiometric membrane core complex by binding to Der1p via the linker protein Usa1p. This core complex associates through Hrd3p with Yos9p, a substrate recognition protein in the ER lumen. Substrates with misfolded intramembrane domains define a pathway (ERAD-M) that differs from ERAD-L by being independent of Usa1p and Der1p. Membrane proteins with misfolded cytosolic domains use the ERAD-C pathway and are directly targeted to the Doa10p ubiquitin ligase. All three pathways converge at the Cdc48p ATPase complex. These results lead to a unifying concept for ERAD that may also apply to mammalian cells.

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Here, there, and everywhere: The importance of ER membrane contact sites

Carvalho

Voeltz

2018

Science

534

545

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Our textbook image of organelles has changed. Instead of revealing isolated cellular compartments, the picture now emerging shows organelles as largely interdependent structures that can communicate through membrane contact sites (MCSs). MCSs are sites where opposing organelles are tethered but do not fuse. MCSs provide a hybrid location where the tool kits of two different organelles can work together to perform vital cellular functions, such as lipid and ion transfer, signaling, and organelle division. Here, we focus on MCSs involving the endoplasmic reticulum (ER), an organelle forming an extensive network of cisternae and tubules. We highlight how the dynamic ER network regulates a plethora of cellular processes through MCSs with various organelles and with the plasma membrane.

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ER-associated degradation: Protein quality control and beyond

2014

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Even with the assistance of many cellular factors, a significant fraction of newly synthesized proteins ends up misfolded. Cells evolved protein quality control systems to ensure that these potentially toxic species are detected and eliminated. The best characterized of these pathways, the ER-associated protein degradation (ERAD), monitors the folding of membrane and secretory proteins whose biogenesis takes place in the endoplasmic reticulum (ER). There is also increasing evidence that ERAD controls other ER-related functions through regulated degradation of certain folded ER proteins, further highlighting the role of ERAD in cellular homeostasis.

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Pedro Carvalho

Dynamics and functions of lipid droplets

Distinct Ubiquitin-Ligase Complexes Define Convergent Pathways for the Degradation of ER Proteins

Here, there, and everywhere: The importance of ER membrane contact sites

ER-associated degradation: Protein quality control and beyond

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