Dimerization of ERp29, a PDI-like Protein, Is Essential for Its Diverse Functions

Rainey-Barger, Emily K.; Mkrtchian, Souren; Tsai, Billy

doi:10.1091/mbc.e06-11-1004

Cited by 36 publications

(49 citation statements)

References 33 publications

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Section: Introductionmentioning

confidence: 99%

“…ERp29 has also been shown to promote the folding and secretion of thyroglobulin (Sargsyan et al, 2002;Baryshev et al, 2006) and the Drosophila paralogue of ERp29, Windbeutel, is required for transport of heparan sulfate 2-O-sulfotransferase (Pipe) from the ER to the Golgi apparatus (Ma et al, 2003). ERp29 also facilitates the unfolding and ER retrotranslocation of the polyomavirus VP1 protein, a key step in the virus infection cycle (Magnuson et al, 2005;Rainey-Barger et al, 2007).The emerging role for ERp29 in regulating protein trafficking suggests the possibility of an analogous role for ERp29 in regulating Cx43 transport along the secretory pathway. Here, we provide evidence that ERp29 stabilizes monomeric Cx43 in the ER and that interference with ERp29 expression inhibited Cx43 secretion and decreased the efficiency of gap junction formation by Cx43.…”

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confidence: 99%

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ERp29 Restricts Connexin43 Oligomerization in the Endoplasmic Reticulum

Das

Smith

Sarma

et al. 2009

MBoC

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Connexin43 (Cx43) is a gap junction protein that forms multimeric channels that enable intercellular communication through the direct transfer of signals and metabolites. Although most multimeric protein complexes form in the endoplasmic reticulum (ER), Cx43 seems to exit from the ER as monomers and subsequently oligomerizes in the Golgi complex. This suggests that one or more protein chaperones inhibit premature Cx43 oligomerization in the ER. Here, we provide evidence that an ER-localized, 29-kDa thioredoxin-family protein (ERp29) regulates Cx43 trafficking and function. Interfering with ERp29 function destabilized monomeric Cx43 oligomerization in the ER, caused increased Cx43 accumulation in the Golgi apparatus, reduced transport of Cx43 to the plasma membrane, and inhibited gap junctional communication. ERp29 also formed a specific complex with monomeric Cx43. Together, this supports a new role for ERp29 as a chaperone that helps stabilize monomeric Cx43 to enable oligomerization to occur in the Golgi apparatus. INTRODUCTIONConnexins form gap junction channels that mediate intercellular communication by allowing the direct transfer of ions and small aqueous molecules between neighboring cells or by serving as hemichannels at the plasma membrane (Harris, 2001;Goodenough and Paul, 2003;Saez et al., 2003;Laird, 2006). There are Ͼ20 human connexin genes and one of the most ubiquitously expressed is connexin43 (Cx43). Several diseases have been linked to mutations in different connexin genes, including Cx43 (Kelsell et al., 2001;Laird, 2008). Many of these mutant connexins are not efficiently processed and lack the ability to form functional gap junction channels. Determining how mutant connexins are mistargeted requires a more complete understanding of how normal connexins are processed by the cell.A gap junction hemichannel consists of six connexins, which oligomerize before delivery to the plasma membrane (Martin and Evans, 2004;Segretain and Falk, 2004;Koval, 2006). Unlike most multimeric membrane channels, Cx43 is unusual in that it does not oligomerize in the endoplasmic reticulum (ER) (Musil and Goodenough, 1993), which is more commonly a prerequisite to further transport along the secretory pathway (Ellgaard and Helenius, 2003;Anelli and Sitia, 2008). Instead, Cx43 is transported out of the ER as an apparent monomer that then oligomerizes in the Golgi complex (Musil and Goodenough, 1993;Koval et al., 1997). Although other connexins, such as Cx46 (Koval et al., 1997), also oligomerize in the Golgi apparatus, this is not a universal pathway for connexin oligomerization because other gap junction proteins, such as Cx32, preferentially oligomerize in the ER (Martin and Evans, 2004;Koval, 2006). Understanding the molecular basis for this difference, as well as the ability of monomeric Cx43 to be transported from the ER to the Golgi apparatus has proven difficult, because little is known about chaperones that regulate connexin folding. In particular, it seemed likely that one or more chaperones would be requir...

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Section: Introductionmentioning

confidence: 99%

mentioning

confidence: 99%

ERp29 Restricts Connexin43 Oligomerization in the Endoplasmic Reticulum

Das

Smith

Sarma

et al. 2009

MBoC

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“…From the cytosol, Py is transferred into the nucleus, with the ensuing transcription and replication of the viral genome leading to lytic infection or cell transformation. How Py is transported across the ER membrane from the ER lumen into the cytosol is a complicated process that recent studies have begun to unravel (6,10,11,(17)(18)(19).…”

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confidence: 99%

A PDI Family Network Acts Distinctly and Coordinately with ERp29 To Facilitate Polyomavirus Infection

Walczak

Tsai

2011

J Virol

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Endoplasmic reticulum (ER)-to-cytosol membrane transport is a decisive infection step for the murine polyomavirus (Py). We previously determined that ERp29, a protein disulfide isomerase (PDI) member, extrudes the Py VP1 C-terminal arm to initiate ER membrane penetration. This reaction requires disruption of Py's disulfide bonds. Here, we found that the PDI family members ERp57, PDI, and ERp72 facilitate virus infection. However, while all three proteins disrupt Py's disulfide bonds in vitro, only ERp57 and PDI operate in concert with ERp29 to unfold the VP1 C-terminal arm. An alkylated Py cannot stimulate infection, implying a pivotal role of viral free cysteines during infection. Consistent with this, we found that although PDI and ERp72 reduce Py, ERp57 principally isomerizes the virus in vitro, a reaction that requires viral free cysteines. Our mutagenesis study subsequently identified VP1 C11 and C15 as important for infection, suggesting a role for these residues during isomerization. C11 and C15 also act together to stabilize interpentamer interactions for a subset of the virus pentamers, likely because some of these residues form interpentamer disulfide bonds. This study reveals how a PDI family functions coordinately and distinctly to promote Py infection and pinpoints a role of viral cysteines in this process.

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“…2A, step 2) (Daniels et al 2006;Rainey-Barger et al 2007b;Geiger et al 2011). At this juncture, ERAD membrane components including Derlin-1 (Schelhaas et al 2007;Jiang et al 2009b), Derlin-2 (Lilley et al 2006), Sel1L (Schelhaas et al 2007), RMA1 (Geiger et al 2011), and BAP29/BAP31 (Geiger et al 2011), have been proposed to facilitate Py's exit to the cytosol.…”

Section: Polyomavirus Co-opts the Er During Entrymentioning

confidence: 99%