Synergistic cooperation and crosstalk between MYD88L265P and mutations that dysregulate CD79B and surface IgM

CD79B and MYD88 mutations are frequently and simultaneously detected in B cell malignancies. It is not known if these mutations cooperate or how crosstalk occurs. Here we analyze the consequences of CD79B and MYD88L265P mutations individually and combined in normal activated mouse B lymphocytes. CD79B mutations alone increased surface IgM but did not enhance B cell survival, proliferation, or altered NF-κB responsive markers. Conversely, B cells expressing MYD88L265P decreased surface IgM coupled with accumulation of endoglycosidase H–sensitive IgM intracellularly, resembling the trafficking block in anergic B cells repeatedly stimulated by self-antigen. Mutation or overexpression of CD79B counteracted the effect of MYD88L265P. In B cells chronically stimulated by self-antigen, CD79B and MYD88L265P mutations in combination, but not individually, blocked peripheral deletion and triggered differentiation into autoantibody secreting plasmablasts. These results reveal that CD79B and surface IgM constitute a rate-limiting checkpoint against B cell dysregulation by MYD88L265P and provide an explanation for the co-occurrence of MYD88 and CD79B mutations in lymphomas.

The Protein Tyrosine Phosphatase PTP1B Is Required for Efficient Delivery of N-Cadherin to the Cell Surface

PTP1B bound to mature N-cadherin promotes the association of β-catenin into the complex, the stable expression of the complex at cell surface, and cadherin-mediated adhesion. Here we show that PTP1B is also required for N-cadherin precursor trafficking through early stages of the secretory pathway. This function does not require association of PTP1B with the precursor. In PTP1B null cells, the N-cadherin precursor showed higher sensitivity to endoglycosidase H than in cells reconstituted with the wild-type enzyme. It also showed slower kinetics of ER-to-Golgi translocation and processing. Trafficking of the viral stomatitis vesicular glycoprotein, VSV-G, however, revealed no differences between PTP1B null and reconstituted cells. N-cadherin precursor complexes contained similar levels of α- and β-catenin regardless of PTP1B expression. In contrast, the associated p120 catenin (p120) was significantly reduced in absence of PTP1B expression. An N-cadherin precursor construct defective in p120 binding, and expressed in PTP1B reconstituted cells, showed higher sensitivity to endoglycosidase H and slower kinetics of processing than the wild-type precursor. Our results suggest that PTP1B promotes the association of p120 to the N-cadherin precursor, facilitating the trafficking of the complex from the ER to the Golgi complex.

Epithelial Sodium Channel Exit from the Endoplasmic Reticulum Is Regulated by a Signal within the Carboxyl Cytoplasmic Domain of the α Subunit

Epithelial sodium channels (ENaCs) are assembled in the endoplasmic reticulum (ER) from α, β, and γ subunits, each with two transmembrane domains, a large extracellular loop, and cytoplasmic amino and carboxyl termini. ENaC maturation involves transit through the Golgi complex where Asn-linked glycans are processed to complex type and the channel is activated by furin-dependent cleavage of the α and γ subunits. To identify signals in ENaC for ER retention/retrieval or ER exit/release, chimera were prepared with the interleukin α subunit (Tac) and each of the three cytoplasmic carboxyl termini of mouse ENaC (Tac-Ct) or with γ-glutamyltranspeptidase and each of the three cytoplasmic amino termini (Nt-GGT). By monitoring acquisition of endoglycosidase H resistance after metabolic labeling, we found no evidence of ER retention of any chimera when compared with control Tac or GGT, but we did observe enhanced exit of Tac-αCt when compared with Tac. ER exit of ENaC was assayed after metabolic labeling by following the appearance of cleaved α as cleaved α subunit, but not non-cleaved α, is endoglycosidase H-resistant. Interestingly ER exit of epitope-tagged and truncated α (αΔ624–699-V5) with full-length βγ was similar to wild type α (+βγ), whereas ER exit of ENaC lacking the entire cytoplasmic carboxyl tail of α (αΔ613–699-V5 +βγ) was significantly reduced. Subsequent analysis of ER exit for ENaCs with mutations within the intervening sequence 613HRFRSRYWSPG623 within the context of the full-length α revealed that mutation αRSRYW620 to AAAAA significantly reduced ER exit. These data indicate that ER exit of ENaC is regulated by a signal within the α subunit carboxyl cytoplasmic tail.

Characterization of Murine Gammaherpesvirus 68 Glycoprotein B

ABSTRACT Murine gammaherpesvirus 68 (MHV-68) glycoprotein B (gB) was identified in purified virions by immunoblotting, immunoprecipitation, and immunoelectron microscopy. It was synthesized as a 120-kDa precursor in infected cells and cleaved into 65-kDa and 55-kDa disulfide-linked subunits close to the time of virion release. The N-linked glycans on the cleaved, virion gB remained partially endoglycosidase H sensitive. The processing of MHV-68 gB therefore appears similar to that of Kaposi's sarcoma-associated herpesvirus gB and human cytomegalovirus gB.

Characterization of Infectious Retroviral Pseudotype Particles Bearing Hepatitis C Virus Glycoproteins

ABSTRACT The recent development of infectious retroviral pseudotypes bearing hepatitis C virus (HCV) glycoproteins represents an opportunity to study the functionally active form of the HCV E1 and E2 glycoproteins. In the culture supernatant of cells producing HCV retroviral pseudotypes, the majority of E2 was not associated with infectious particles and failed to sediment on sucrose gradients. The E2 that was incorporated into infectious particles appeared as a triplet of diffuse bands at 60, 70, and 90 kDa. Similarly, three major forms of E1 were incorporated into the pseudotype particles, migrating at 33, 31, and 25 kDa. Endoglycosidase H (endo-H) treatment of particles demonstrated that the incorporated E1 was partially or completely sensitive to digestion. In contrast, the majority of the incorporated E2 was endo-H resistant. Purified pseudotype particles were found to contain both disulfide-linked aggregates and nonaggregated E1 and E2. HCV pseudotypes generated from cells expressing E1E2p7 showed similar heterogeneity in the incorporated glycoproteins and were of comparable infectivity to those generated by expression of E1E2. Our results demonstrate the heterogenous nature of E1 and E2 incorporated into retroviral pseudotypes and highlight the difficulty in identifying forms of the HCV glycoproteins that initiate infection.

A Glycine-Rich Bovine Herpesvirus 5 (BHV-5) gE-Specific Epitope within the Ectodomain Is Important for BHV-5 Neurovirulence

ABSTRACT The bovine herpesvirus 5 (BHV-5) gE ectodomain contains a glycine-rich epitope coding region (gE5 epitope), residues 204 to 218, that is significantly different from the corresponding gE region of BHV-1. Deletion of the gE epitope significantly reduced the neurovirulence of BHV-5 in rabbits. Pulse-chase analyses revealed that the epitope-deleted and wild-type gE were synthesized as N-glycosylated endoglycosidase H-sensitive precursors with approximate molecular masses of 85 kDa and 86 kDa, respectively. Like the wild-type gE, epitope-deleted gE complexed with gI and was readily transported from the endoplasmic reticulum. Concomitantly, the epitope-deleted and wild-type gE acquired posttranslational modifications in the Golgi leading to an increased apparent molecular mass of 93-kDa (epitope-deleted gE) and 94-kDa (wild-type gE). The kinetics of mutant and wild-type gE processing were similar, and both mature proteins were resistant to endoglycosidase H but sensitive to glycopeptidase F. The gE epitope-deleted BHV-5 formed wild-type-sized plaques in MDBK cells, and the epitope-deleted gE was expressed on the cell surface. However, rabbits infected intranasally with gE epitope-deleted BHV-5 did not develop seizures, and only 20% of the infected rabbits showed mild neurological signs. The epitope-deleted virus replicated efficiently in the olfactory epithelium. However, within the brains of these rabbits there was a 10- to 20-fold reduction in infected neurons compared with the number of infected neurons within the brains of rabbits infected with the gE5 epitope-reverted and wild-type BHV-5. In comparison, 70 to 80% of the rabbits exhibited severe neurological signs when infected with the gE5 epitope-reverted and wild-type BHV-5. These results indicated that anterograde transport of the gE epitope-deleted virus from the olfactory receptor neurons to the olfactory bulb is defective and that, within the central nervous system, the gE5 epitope-coding region was required for expression of the full virulence potential of BHV-5.

Protein tyrosine phosphatase 1B participates in the down-regulation of erythropoietin receptor signalling

Erythropoietin (EPO) is the principal hormone regulating the proliferation of erythroid precursors and their differentiation into erythrocytes. Binding of ligand to the cell-surface EPO-R (EPO receptor) induces dimerization and JAK2 (Janus kinase 2)-mediated tyrosine phosphorylation of the receptor. Less than 1% of the EPO-Rs are displayed on the cell surface; most of the receptor molecules are retained in intracellular compartments, including the ER (endoplasmic reticulum). Using pervanadate (PV) as a potent tool to inhibit cellular PTPs (protein tyrosine phosphatases), we demonstrated previously the accumulation of mature (endoglycosidase H-resistant) tyrosine-phosphorylated EPO-R [Cohen, Altaratz, Zick, Klingmuller and Neumann (1997) Biochem. J. 327, 391–397]. In the present study, we investigated the participation of the ER-associated PTP1B in the dephosphorylation of intracellular EPO-R. We demonstrate tyrosine phosphorylation of EPO-R in BOSC-23T cells co-expressing EPO-R and the ‘substrate-trapping’ mutant form of PTP1B, PTP1B D181A (referred to as PTP1BD). In vivo interaction between EPO-R and PTP1B suggested that PTP1B dephosphorylates the EPO-R intracellularly. Endoglycosidase H resistance of tyrosine-phosphorylated EPO-R in cells expressing PTP1BD suggested that mature EPO-R is dephosphorylated by PTP1B. Stimulation with EPO of cells co-expressing EPO-R and either PTP1BD or PTP1B resulted in an increase or decrease respectively in phosphotyrosine EPO-R. We thus suggest that PTP1B dephosphorylates EPO-stimulated EPO-R and participates in the down-regulation cascade of EPO-mediated signal transduction.

Transient Association of Calnexin and Calreticulin with Newly Synthesized G1 and G2 Glycoproteins of Uukuniemi Virus (FamilyBunyaviridae)

ABSTRACT The membrane glycoproteins G1 and G2 of Uukuniemi virus, a member of the Bunyaviridae family, are cotranslationally cleaved from a common precursor in the endoplasmic reticulum (ER). Here, we show that newly made G1 and G2 associate transiently with calnexin and calreticulin, two lectins involved in glycoprotein folding in the ER. Stable complexes between G1-G2 and calnexin or calreticulin could be immunoprecipitated after solubilization of virus-infected BHK21 cells with the detergents digitonin or Triton X-100. In addition, G1-G2-calnexin complexes could be recovered after solubilization with CHAPS {3-[(3-cholamidopropyl)-dimethylammonio]-1-propane sulfonate}, while G1-G2-calreticulin complexes were not readily detected by using this detergent. Only endoglycosidase H-sensitive forms of G1 were found complexed with calnexin. Pulse-chase experiments showed that G1 and G2 associated with both chaperones transiently for up to 120 min. Sequential immunoprecipitations with anticalreticulin and anticalnexin antisera indicated that about 50% of newly synthesized G1 and G2 was associated with either calnexin or calreticulin. Our previous results have shown that newly synthesized G1 and G2 transiently interact also with the ER chaperone BiP and with protein disulfide isomerase (R. Persson and R. F. Pettersson, J. Cell Biol. 112:257–266, 1991). Taking all of this into consideration, we conclude that the folding of G1 and G2 in the ER is catalyzed by at least four different folding factors.