Misfolding of Collagen X Chains Harboring Schmid Metaphyseal Chondrodysplasia Mutations Results in Aberrant Disulfide Bond Formation, Intracellular Retention, and Activation of the Unfolded Protein Response

Wilson, Richard; Freddi, Susanna; Chan, Danny; Cheah, Kathryn S.E.; Bateman, John F.

doi:10.1074/jbc.m410758200

Cited by 60 publications

(62 citation statements)

References 60 publications

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“…2C). Several residues within the C1q domain are highly conserved among various members of the C1q ⁄ TNF superfamily; mutations of such amino acids in collagen X are reported to form unstable trimers, which are retained in the ER and degraded in certain forms of Schmid metaphyseal chondrodysplasia (SMCD) (Bogin et al, 2002;Wilson et al, 2005). Thus, to create a Cbln1 mutant that would be retained in the ER, enabling it to be used as a positive control for the Endo H assay, we introduced Schmid-type mutations into the corresponding residues within the C1q domain of Cbln1 (Cbln1 G110E, Y112H ; unfilled circles in Fig.…”

Section: Retention Of Cbln3 In the Er ⁄ Cis-golgi Because Of Its N-tementioning

confidence: 99%

Characterization of a transneuronal cytokine family Cbln − regulation of secretion by heteromeric assembly

Iijima

Miura

Matsuda

et al. 2007

Eur J of Neuroscience

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Cbln1, a member of the C1q and tumor necrosis factor superfamily, plays crucial roles as a cerebellar granule cell-derived transneuronal regulator of synapse integrity and plasticity in Purkinje cells. Although other Cbln family members, Cbln2-Cbln4, have distinct spatial and temporal patterns of expression throughout the CNS, their biochemical and biological properties have remained largely uncharacterized. Here, we demonstrated that in mammalian heterologous cells, Cbln2 and Cbln4 were secreted as N-linked glycoproteins, like Cbln1. In contrast, despite the presence of a functional signal sequence, Cbln3 was not secreted when expressed alone but was retained in the endoplasmic reticulum (ER) or cis-Golgi because of its N-terminal domain. All members of the Cbln family formed not only homomeric but also heteromeric complexes with each other in vitro. Accordingly, when Cbln1 and Cbln3 were co-expressed in heterologous cells, a proportion of the Cbln1 proteins was retained in the ER or cis-Golgi; conversely, some Cbln3 proteins were secreted together with Cbln1. Similarly, in wild-type granule cells expressing Cbln1 and Cbln3, Cbln3 proteins were partially secreted and reached postsynaptic sites on Purkinje cell dendrites, while Cbln3 was almost completely degraded in cbln1-null granule cells. These results indicate that like Cbln1, Cbln2 and Cbln4 may also serve as transneuronal regulators of synaptic functions in various brain regions. Furthermore, heteromer formation between Cbln1 and Cbln3 in cerebellar granule cells may modulate each other's trafficking and signaling pathways; similarly, heteromerization of other Cbln family proteins may also have biological significance in other neurons.

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Section: Retention Of Cbln3 In the Er ⁄ Cis-golgi Because Of Its N-tementioning

confidence: 99%

Characterization of a transneuronal cytokine family Cbln − regulation of secretion by heteromeric assembly

Iijima

Miura

Matsuda

et al. 2007

Eur J of Neuroscience

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“…Splicing of XBP-1 mRNA was analyzed by polymerase chain reaction (PCR) as described, 19 with primers flanking the 26b intron (5Ј-GGAGTTAAGA-CAGCGCTTGG; 5Ј-ACTGGGTCCAAGTTGTCCAG). PCR products from the spliced (s) and unspliced (u) XBP-1 mRNAs were resolved by electrophoresis on a 2.5% agarose gel and visualized by ethidium bromide.…”

Section: Rt-pcr Analysesmentioning

confidence: 99%

The proteasome load versus capacity balance determines apoptotic sensitivity of multiple myeloma cells to proteasome inhibition

Bianchi

Oliva

Cascio

et al. 2009

Blood

230

221

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IntroductionMultiple myeloma (MM) is a frequent and still incurable plasma cell malignancy, causing 2% of all cancer deaths. In recent years, treatment of MM has improved remarkably. For example, the proteasome inhibitor (PI) bortezomib (PS-341) proved effective even in the context of heavily pretreated, relapsed, and refractory MM, 1-3 although more than 50% of patients fail to respond to second-line treatment. 4 The molecular bases of different individual responsiveness to bortezomib remain unclear. Age (Ͻ 65 years) and extent of bone marrow plasma cell infiltration (Ͻ 50%) are the conventional factors for successful treatment identified so far. [5][6][7] Identifying the molecular bases underlying PI sensitivity would provide the framework for their improved clinical application.Bortezomib targets the proteasome, a 2.4-MDa multicatalytic protease complex ubiquitously expressed in eukaryotic cells. 1,8 Crucial for degrading proteins involved in cell cycle, angiogenesis, adhesion, cytokine production, and apoptosis, 3,9,10 proteasome inhibition can affect tumor cell growth via direct and indirect mechanisms (eg, by blocking interactions with endothelial and bone cells). 8,11 Proteasomes also dismantle damaged and misfolded/unfolded proteins, which are potentially harmful for the cell. 8 As a result, proteasome impairment causes buildup of polyubiquitinated proteins and eventual cell death. 3 Proteasomes also degrade a significant proportion of newly synthesized proteins in mammalian cells (rapidly degraded polypeptides [RDPs]). 12 Thus, increased protein synthesis or other metabolic unbalances could increase proteasome workload.We recently showed that plasma cell differentiation in vitro, ex vivo, and in vivo entails a dramatic decrease in proteasome expression and activity, correlating with increased sensitivity to PIs. 13,14 Indeed, PIs reduce antibody (Ab) responses in vivo. 14,15 Moreover, inducible expression of orphan Ig-chains sensitizes nonlymphoid tumor cells to PI-induced toxicity. 13 In MM cells (MMCs), the levels of both Ig synthesis and retention correlate with apoptotic sensitivity to PIs, and manipulating Ig synthesis alters sensitivity. 16,17 Altogether, these data suggest that the exquisite sensitivity of certain MMCs to PIs could stem from decreased proteasomal capacity, increased proteasomal workload, or both (ie, an adverse load-versus-capacity ratio).In this study, we exploited MM lines with differential apoptotic sensitivity to PIs to address if proteasome expression and degradative workload vary among different clones, and defined their role in The online version of this article contains a data supplement.The publication costs of this article were defrayed in part by page charge payment. Therefore, and solely to indicate this fact, this article is hereby marked ''advertisement'' in accordance with 18 USC section 1734. For personal use only. on May 9, 2018. by guest www.bloodjournal.org From determining apoptotic sensitivity to PIs. Moreover, using primary patient-derived MMCs, we revealed ...

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“…7, lane 1). Apparently, the inability to form normal cysteine bridges leads to alternative intermolecular cysteine oxidation products, as was recently hypothesized for mutant TNFR1 and collagen X chains (22,23). WT derived from primary oligodendrocytes or transfected oli-neu cells migrated on gels largely as monomers (26 kDa), under both reducing and nonreducing conditions (Fig.…”

mentioning

confidence: 99%

A common mechanism of PLP/DM20 misfolding causes cysteine-mediated endoplasmic reticulum retention in oligodendrocytes and Pelizaeus–Merzbacher disease

Dhaunchak

Nave

2007

Proc. Natl. Acad. Sci. U.S.A.

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A large number of mutations in the human PLP1 gene lead to abnormal myelination and oligodendrocyte death in PelizaeusMerzbacher disease (PMD). Here we show that a major subgroup of PMD mutations that map into the extracellular loop region of PLP/DM20 leads to the failure of oligodendrocytes to form the correct intramolecular disulfide bridges. This leads to abnormal protein cross-links and endoplasmic reticulum retention and activates the unfolded protein response. Importantly, surface expression of mutant PLP/DM20 can be restored and the unfolded protein response can be reverted by the removal of two cysteines. Thus, covalent protein cross-links emerge as a cause, rather than as a consequence, of endoplasmic reticulum retention.cysteine bridge ͉ membrane protein misfolding ͉ proteolipid protein ͉ quality control ͉ dysmyelination

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Misfolding of Collagen X Chains Harboring Schmid Metaphyseal Chondrodysplasia Mutations Results in Aberrant Disulfide Bond Formation, Intracellular Retention, and Activation of the Unfolded Protein Response

Cited by 60 publications

References 60 publications

Characterization of a transneuronal cytokine family Cbln − regulation of secretion by heteromeric assembly

Characterization of a transneuronal cytokine family Cbln − regulation of secretion by heteromeric assembly

The proteasome load versus capacity balance determines apoptotic sensitivity of multiple myeloma cells to proteasome inhibition

A common mechanism of PLP/DM20 misfolding causes cysteine-mediated endoplasmic reticulum retention in oligodendrocytes and Pelizaeus–Merzbacher disease

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