The PAR2 signal peptide prevents premature receptor cleavage and activation.

The PAR2 signal peptide prevents premature receptor cleavage and activation.

Unlike closely related GPCRs, protease-activated receptors (PAR1, PAR2, PAR3, and PAR4) have a predicted signal peptide at their N-terminus, which is encoded by a separate exon, suggesting that the signal peptides of PARs may serve an important and unique function, specific for PARs. In this report,...

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Main Authors: Belinda Liu, Grace Lee, Jiejun Wu, Janise Deming, Chester Kuei, Anthony Harrington, Lien Wang, Jennifer Towne, Timothy Lovenberg, Changlu Liu, Siquan Sun
Format: Article
Language:English
Published: Public Library of Science (PLoS) 2020-01-01
Series:PLoS ONE
Online Access:https://doi.org/10.1371/journal.pone.0222685
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spelling doaj-e8b1bd642b6a478a900fecce70696e922021-03-03T21:28:26ZengPublic Library of Science (PLoS)PLoS ONE1932-62032020-01-01152e022268510.1371/journal.pone.0222685The PAR2 signal peptide prevents premature receptor cleavage and activation.Belinda LiuGrace LeeJiejun WuJanise DemingChester KueiAnthony HarringtonLien WangJennifer TowneTimothy LovenbergChanglu LiuSiquan SunUnlike closely related GPCRs, protease-activated receptors (PAR1, PAR2, PAR3, and PAR4) have a predicted signal peptide at their N-terminus, which is encoded by a separate exon, suggesting that the signal peptides of PARs may serve an important and unique function, specific for PARs. In this report, we show that the PAR2 signal peptide, when fused to the N-terminus of IgG-Fc, effectively induced IgG-Fc secretion into culture medium, thus behaving like a classical signal peptide. The presence of PAR2 signal peptide has a strong effect on PAR2 cell surface expression, as deletion of the signal peptide (PAR2ΔSP) led to dramatic reduction of the cell surface expression and decreased responses to trypsin or the synthetic peptide ligand (SLIGKV). However, further deletion of the tethered ligand region (SLIGKV) at the N-terminus rescued the cell surface receptor expression and the response to the synthetic peptide ligand, suggesting that the signal peptide of PAR2 may be involved in preventing PAR2 from intracellular protease activation before reaching the cell surface. Supporting this hypothesis, an Arg36Ala mutation on PAR2ΔSP, which disabled the trypsin activation site, increased the receptor cell surface expression and the response to ligand stimulation. Similar effects were observed when PAR2ΔSP expressing cells were treated with protease inhibitors. Our findings indicated that there is a role of the PAR2 signal peptide in preventing the premature activation of PAR2 from intracellular protease cleavage before reaching the cells surface. The same mechanism may also apply to PAR1, PAR3, and PAR4.https://doi.org/10.1371/journal.pone.0222685
collection DOAJ
language English
format Article
sources DOAJ
author Belinda Liu
Grace Lee
Jiejun Wu
Janise Deming
Chester Kuei
Anthony Harrington
Lien Wang
Jennifer Towne
Timothy Lovenberg
Changlu Liu
Siquan Sun
spellingShingle Belinda Liu
Grace Lee
Jiejun Wu
Janise Deming
Chester Kuei
Anthony Harrington
Lien Wang
Jennifer Towne
Timothy Lovenberg
Changlu Liu
Siquan Sun
The PAR2 signal peptide prevents premature receptor cleavage and activation.
PLoS ONE
author_facet Belinda Liu
Grace Lee
Jiejun Wu
Janise Deming
Chester Kuei
Anthony Harrington
Lien Wang
Jennifer Towne
Timothy Lovenberg
Changlu Liu
Siquan Sun
author_sort Belinda Liu
title The PAR2 signal peptide prevents premature receptor cleavage and activation.
title_short The PAR2 signal peptide prevents premature receptor cleavage and activation.
title_full The PAR2 signal peptide prevents premature receptor cleavage and activation.
title_fullStr The PAR2 signal peptide prevents premature receptor cleavage and activation.
title_full_unstemmed The PAR2 signal peptide prevents premature receptor cleavage and activation.
title_sort par2 signal peptide prevents premature receptor cleavage and activation.
publisher Public Library of Science (PLoS)
series PLoS ONE
issn 1932-6203
publishDate 2020-01-01
description Unlike closely related GPCRs, protease-activated receptors (PAR1, PAR2, PAR3, and PAR4) have a predicted signal peptide at their N-terminus, which is encoded by a separate exon, suggesting that the signal peptides of PARs may serve an important and unique function, specific for PARs. In this report, we show that the PAR2 signal peptide, when fused to the N-terminus of IgG-Fc, effectively induced IgG-Fc secretion into culture medium, thus behaving like a classical signal peptide. The presence of PAR2 signal peptide has a strong effect on PAR2 cell surface expression, as deletion of the signal peptide (PAR2ΔSP) led to dramatic reduction of the cell surface expression and decreased responses to trypsin or the synthetic peptide ligand (SLIGKV). However, further deletion of the tethered ligand region (SLIGKV) at the N-terminus rescued the cell surface receptor expression and the response to the synthetic peptide ligand, suggesting that the signal peptide of PAR2 may be involved in preventing PAR2 from intracellular protease activation before reaching the cell surface. Supporting this hypothesis, an Arg36Ala mutation on PAR2ΔSP, which disabled the trypsin activation site, increased the receptor cell surface expression and the response to ligand stimulation. Similar effects were observed when PAR2ΔSP expressing cells were treated with protease inhibitors. Our findings indicated that there is a role of the PAR2 signal peptide in preventing the premature activation of PAR2 from intracellular protease cleavage before reaching the cells surface. The same mechanism may also apply to PAR1, PAR3, and PAR4.
url https://doi.org/10.1371/journal.pone.0222685
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