Hydrophobic and Basic Domains Target Proteins to Lipid Droplets

Ingelmo-Torres, Mercedes; González-Moreno, Elena; Kassan, Adam; Hanzal-Bayer, Michael; Tebar, Francesc; Herms, Albert; Grewal, Thomas; Hancock, John F.; Enrich, Carlos; Bosch, Marta; Gross, Steven P.; Parton, Robert G.; Pol, Albert

doi:10.1111/j.1600-0854.2009.00994.x

Cited by 72 publications

(73 citation statements)

References 59 publications

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“…For caveolins, it was shown that a cationic domain close to a hydrophobic region is required to sort the protein to LDs in the endoplasmic reticulum (21). Attaching these domains to non-LD binding proteins conferred to them LD localization (21).…”

Section: Negative Charge Influences the Recruitment Of Perilipin 3 Tomentioning

confidence: 99%

“…The perilipins are synthesized on cytosolic ribosomes (18)(19)(20) and are thus sorted to the LD interface in a different manner than those proteins that originate from the endoplasmic reticulum, such as caveolin, for example (21). Sorting of caveolin is cooperatively mediated by a dual motif consisting of a hydrophobic sequence located close to a positively charged sequence (21). Targeting has been investigated for perilipins 1 through 5 in cellular studies and different regions of the proteins have been identified (1,(22)(23)(24)(25)(26)(27).…”

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confidence: 99%

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Insertion of perilipin 3 into a glycero(phospho)lipid monolayer depends on lipid headgroup and acyl chain species

Mirheydari

Rathnayake

Frederick

et al. 2016

Journal of Lipid Research

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function of LDs. While much work has focused on peripheral and integral membrane proteins, the mechanism by which LD binding proteins recognize and target to LDs is still poorly understood (1). This is especially true for dedicated LD binding proteins of the perilipin family, i.e., perilipin 1 through 5, that function in the biogenesis and metabolism (lipolysis) of LDs. No work has directly investigated the interaction of a perilipin family member with a phospholipid monolayer interface. In order to address how this family of proteins interacts with lipid interfaces, we investigated the interaction of perilipin 3 with phospholipid monolayers at the air-buffer interface. We chose perilipin 3 because it is found in the cytosol as well as on the LD surface, and because previous work has characterized the structure and LD association of the protein (1-3).In addition to providing cellular energy, LDs take part in many other cellular functions, including signal transduction, formation of new cellular membranes, hormone synthesis, and lipid trafficking (4-8). Under certain physiological conditions, LDs have been found to act as storehouses for several different types of enzymes and proteins, including histones (9, 10), and they also facilitate virus replication (11-13). An understanding of how proteins Lipid droplets (LDs) are dynamic cell organelles that carry out a multitude of cellular functions vital for life, and protein-lipid interactions are crucial to the structure and

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Section: Negative Charge Influences the Recruitment Of Perilipin 3 Tomentioning

confidence: 99%

mentioning

confidence: 99%

Insertion of perilipin 3 into a glycero(phospho)lipid monolayer depends on lipid headgroup and acyl chain species

Mirheydari

Rathnayake

Frederick

et al. 2016

Journal of Lipid Research

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“…LTetarako eta LTetatiko proteinen trafikoari buruzko ikerkuntza asko egin diren arren, prozesu horien ezagumenduak hutsune asko dauzka. Proteinak LTetara biderarazten dituen zenbait aminoazido-sekuentzia labur identifikatu da [8,9]. Sekuentzia horiek urkila hidrofobiko bat edukitzen dute helize kationiko edo anfipatiko baten alboan.…”

Section: Hiart Navarro-imaz Lino Arisqueta Yuri Rueda Olatz Fresnedounclassified

Zitosoleko lipido-tanten sorrera eta erabilera

Navarro-Imaz

Arisqueta

Rueda

et al. 2017

EKAIA

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Laburpena: Lipido-tantak klasikoki lipido-biltegi inertetzat hartu badira ere, gaur egun benetako organulutzat hartzen dira, beren konplexutasunagatik eta metabolismoan eta zelulen beste fenomenoetan dituzten zereginengatik. Erretikulu endoplasmatikoan sortu eta bertatik askatu ondoren, beren bizitzan zehar hazi egiten dira, lipidoen eta proteinen transferentzia egiten dute, fusio prozesuetan hartzen dute parte eta elkarrekintza espezifikoak izaten dituzte beste organuluekin. Gordetzen dituzten lipidoak erregai zein beste molekula batzuen aitzindari gisa erabiltzen dira, eta horretarako lipolisi eta lipofagia prozesuen bidez askatzen dituzte modu erregulatuan. Lan honetan laburki aztertzen dira prozesu horiek eta lipido-tantek betetzen dituzten funtzio ezkanonikoak.Hitz gakoak: lipido-tantak, lipidoen metaketa, funtzio ezkanonikoak. Abstract:Although lipid droplets (LD) have traditionally been considered inert lipid deposits nowadays they are considered true organelles given their complexity and involvement in metabolism and other cellular processes. LDs originate in endoplasmic reticulum and after release they show growth, transference of lipids and proteins, fusion or specific interactions with other organelles. Lipids stored in LDs can be used as fuel or metabolic precursors, and for such purposes they are released in tightly controlled lipolysis or lipophagy processes. This work summarises all these aspects as well as other non-canonical LD functions.

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“…Although several cellular and viral proteins localize on the LD membrane, consensus signals for LD targeting are not defi ned ( 1 ). Recent reports have shown that LD-targeting activity resides in amphipathic helices (19)(20)(21)(22)(23) or in hydrophobic regions (24)(25)(26).…”

Section: Immunofl Uorescencementioning

confidence: 99%