Sorting Nexin 17 Regulates ApoER2 Recycling and Reelin Signaling

Sotelo, Pablo; Farfán, Pamela; Benítez, María Luisa; Bu, Guojun; Marzolo, Marı́a Paz

doi:10.1371/journal.pone.0093672

Cited by 39 publications

(45 citation statements)

References 79 publications

(183 reference statements)

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“…PC12-ApoER2 cells that were incubated with DAPT accumulated the ApoER2 17 kDa CTF, as has been previously described in other cell types, which supports the constitutive proteolytic processing of ApoER2 [4, 64, 71] (Figure 3B). PC12-ApoER2 cells that were incubated with NGF for 2 h showed a significant increase in the CTF level (Figure 3B,C).…”

Section: Resultssupporting

confidence: 86%

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Neurotrophins regulate ApoER2 proteolysis through activation of the Trk signaling pathway

et al. 2014

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BackgroundApoER2 and the neurotrophin receptors Trk and p75NTR are expressed in the CNS and regulate key functional aspects of neurons, including development, survival, and neuronal function. It is known that both ApoER2 and p75NTR are processed by metalloproteinases, followed by regulated intramembrane proteolysis. TrkA activation by nerve growth factor (NGF) increases the proteolytic processing of p75NTR mediated by ADAM17. Reelin induces the sheeding of ApoER2 ectodomain depending on metalloproteinase activity. However, it is not known if there is a common regulation mechanism for processing these receptors.ResultsWe found that TrkA activation by NGF in PC12 cells induced ApoER2 processing, which was dependent on TrkA activation and metalloproteinases. NGF-induced ApoER2 proteolysis was independent of mitogen activated protein kinase activity and of phosphatidylinositol-3 kinase activity. In contrast, the basal proteolysis of ApoER2 increased when both kinases were pharmacologically inhibited. The ApoER2 ligand reelin regulated the proteolytic processing of its own receptor but not of p75NTR. Finally, in primary cortical neurons, which express both ApoER2 and TrkB, we found that the proteolysis of ApoER2 was also regulated by brain-derived growth factor (BDNF).ConclusionsOur results highlight a novel relationship between neurotrophins and the reelin-ApoER2 system, suggesting that these two pathways might be linked to regulate brain development, neuronal survival, and some pathological conditions.

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Section: Resultssupporting

confidence: 86%

“…Cortical neurons were prepared and cultured essentially as described [71]. Cerebral cortexes from 18-day-old embryos were washed two times with cold Hank’s medium and digested with Hank’s 0.5% trypsin-EDTA (Invitrogen) for 18 min at 37°C.…”

Section: Methodsmentioning

confidence: 99%

Neurotrophins regulate ApoER2 proteolysis through activation of the Trk signaling pathway

et al. 2014

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“…For example, high expression of the endosome-associated protein Sortin nexin 17 (SNX17) enhances LDL uptake due to increased endocytosis of LDLR [33]. SNX17 also facilitates the recycling of LRP1 and ApoER2 [34,35], but whether SNX17 acts in conjunction with the CCC and WASH complexes, and whether these two complexes are also required for endosomal sorting of LRP1 or other members of the LDLR family has yet to be determined.…”

Section: Low-density Lipoprotein Receptor (Ldlr)mentioning

confidence: 99%

News on the molecular regulation and function of hepatic low-density lipoprotein receptor and LDLR-related protein 1

Sluis

Wijers

Herz

2017

Current Opinion in Lipidology

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Purpose of review Clearing of atherogenic lipoprotein particles by the liver requires hepatic LDLR and LRP1. This review highlights recent studies that have expanded out understanding of the molecular regulation and metabolic functions of LDLR and LRP1 in the liver. Recent findings Various proteins orchestrate the intracellular trafficking of LDLR and LRP1. After internalization, the receptors are redirected via recycling endosomes to the cell surface. Several new endocytic proteins that facilitate the endosomal trafficking of LDLR and consequently the clearance of circulating LDL cholesterol have recently been reported. Mutations in some of these proteins cause hypercholesterolemia in human. In addition, LRP1 controls cellular cholesterol efflux by modulating the expression of ABCA1, and ABCG1, and hepatic LRP1 protects against diet-induced hepatic insulin resistance and steatosis through the regulation of insulin receptor trafficking. Summary LDLR and LRP1 have prominent roles in cellular and organismal cholesterol homeostasis. Their functioning, including their trafficking in the cell, is controlled by numerous proteins. Comprehensive studies into the molecular regulation of LDLR and LRP1 trafficking have advanced our fundamental understanding of cholesterol homeostasis, and these insights may lead to novel therapeutic strategies for atherosclerosis, hyperlipidemia and insulin resistance in the future.

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“…ARH, autosomal recessive hypercholesterolemia; Dab2, disabled-2; ESCRT, endosomal-sorting complex required for transport machinery; IDOL, inducible degrader of the LDL receptor; LDLR, LDL receptor; PCSK9, proprotein convertase subtilisin/kexin type 9; SNX17, sorting nexin 17; Ub, ubiquitin. two, without changing the number of receptors on the cell surface [27,28]. This suggests that interaction of SNX17 with the LDLR does not influence degradation of the receptor by directing it to the lysosome, but rather accelerates its movement through the early endocytic compartment [27].…”

Section: Low-density Lipoprotein Receptor Traffickingmentioning

confidence: 99%

The life cycle of the low-density lipoprotein receptor

Wijers

Kuivenhoven

Sluis

2015

Current Opinion in Lipidology

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Since the discovery of LDLR, knowledge about its function has greatly expanded. As a result of its importance in maintaining homeostatic LDL levels, the LDLR pathway has emerged as a key therapeutic target to reduce circulating cholesterol. In order to be able to treat and diagnose individuals with hypercholesterolemia in the future, it is important to learn more about the LDLR trafficking pathway, as we still lack a full mechanistic understanding of how LDLR trafficking is controlled.

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Sorting Nexin 17 Regulates ApoER2 Recycling and Reelin Signaling

Cited by 39 publications

References 79 publications

Neurotrophins regulate ApoER2 proteolysis through activation of the Trk signaling pathway

Neurotrophins regulate ApoER2 proteolysis through activation of the Trk signaling pathway

News on the molecular regulation and function of hepatic low-density lipoprotein receptor and LDLR-related protein 1

The life cycle of the low-density lipoprotein receptor

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