MIC-1, a novel macrophage inhibitory cytokine, is a divergent member of the TGF-β superfamily

Bootcov, Michelle; Bauskin, Asne R.; Valenzuela, Stella M.; Moore, Anthony G.; Bansal, M. P.; He, Xiaofu; Zhang, Hong Ping; Donnellan, M.; Mahler, Stephen M.; Pryor, Kimberley Jane; Walsh, Bradley J.; Nicholson, Richard C.; Fairlie, W. Douglas; Por, Suzanne B.; Robbins, Joan M.; Breit, Samuel N.

doi:10.1073/pnas.94.21.11514

Cited by 1,031 publications

(951 citation statements)

References 39 publications

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“…The pro-form of this protein is a homodimer of a 308 amino acid polypeptide, whereas the mature form is a dimer of the last 112 amino acids. 9 The mature form of MIC1 contains no potential N-glycosylation sites but has been shown to be expressed and secreted in CHO cells by fusion with a secretion signal peptide. 9 When an NXS/T sequon was introduced at the N-terminal of the protein (D201S, 198RNGSH, two amino acid behind an N-terminal six histidine tag), the secretion of the mature MIC1 mutant dimer increased more than about five-fold in HEK293-6E cells.…”

Section: Introduction Of N-glycosylation Site On Proteins Lacking Effmentioning

confidence: 99%

Enhancing the secretion of recombinant proteins by engineering N‐glycosylation sites

Liu

Nguyen

Wolfert

et al. 2009

Biotechnology Progress

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N-glycosylation is important for the folding and quality control of membrane and secretory proteins. We used mutagenesis to introduce N-glycosylation sequons in recombinant proteins to improve their secretion in HEK293 cells. Seven recombinant proteins, with or without endogenous N-glycosylation sequons, were tested by this method. Our results indicate that N-glycosylation sequons located at the N-or C-terminal are glycosylated at high rates and thus the N-and C-terminal may be convenient sites for effectively attaching oligosaccharide chains. More importantly, introduction of oligosaccharide chains at such positions has been found to improve the secretion levels for the majority of the recombinant proteins in our studies, regardless of endogenous N-glycosylation, presumably by improving their folding in the endoplasmic reticulum. V V C 2009 American Institute of Chemical Engineers Biotechnol. Prog., 25: 1468Prog., 25: -1475Prog., 25: , 2009 Keywords: N-glycosylation, protein expression, secretion, protein folding, mutagenesis, quality control IntroductionAsparagine glycosylation (N-glycosylation) is an important process for the delivery of secretory and membrane proteins to the extracellular space or cell surface. Thus, most secretory and membrane proteins contain asparagine-linked (N-linked) glycans, with one or more oligosaccharide chains attached to the polypeptide backbone. For some proteins, Nglycosylation is absolutely required for their secretion. For others, it may not be necessary. Nevertheless, oligosaccharide chains have been shown to be the important parts of the proteins and may play roles in the folding, transport, degradation, structure, stability, receptor-recognition, cellular localization, or other biological activities of the glycoproteins (reviewed in Refs. 1-3). Protein N-glycosylation takes place at the membrane of the endoplasmic reticulum (ER). The ER plays a primary quality control function to ensure the fidelity and proper folding of proteins before they travel out of the compartment, as incorrectly folded proteins can be toxic to the cell. A presynthesized oligosaccharide chain on a lipid carrier, dolichol, is transferred onto the asparagine residue in the NXS/T sequon of the nascent polypeptide by the oligosaccharyltransferase (OST) complex while translation is in process. 2 The attached oligosaccharide chains continue to be modified along the maturation pathway of the proteins in the ER and the N-glycosylation status will dictate the fate of the synthesized protein. The newly synthesized protein can proceed to secretion, aggregation, or degradation depending on the status and pattern of its N-glycosylation. [4][5][6] In the overexpression and production of recombinant proteins, the efficiency of N-glycosylation will affect the yield of the protein recovery and the circulation life of a pharmaceutical molecule. Although N-glycosylation is important, it is well known that not all potential glycosylation sites are attached with oligosaccharide chains. In our routine expression experi...

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Section: Introduction Of N-glycosylation Site On Proteins Lacking Effmentioning

confidence: 99%

Enhancing the secretion of recombinant proteins by engineering N‐glycosylation sites

Liu

Nguyen

Wolfert

et al. 2009

Biotechnology Progress

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“…The protein encoded by NAG-1, which has been isolated by a variety of cloning strategies, is also known as macrophage inhibitory cytokine-1 (MIC-1) (Bootcov et al, 1997), placental transforming growth factor β (PTGFB) (Tan et al, 2000), prostate derived factor (PDF) (Paralkar et al, 1998), growth differentiation factor 15 (GDF15) (Hsiao et al, 2000) and placental bone morphogenetic protein (PLAB) (Hromas et al, 1997). The diversity of biological functions indicated by this nomenclature suggests that the biological role of the NAG-1 protein depends on cell context.…”

Section: Introductionmentioning

confidence: 99%

Molecular characterisation of canine nonsteroidal anti-inflammatory drug-activated gene (NAG-1)

Yamaguchi

Whitlock

Liggett

et al. 2008

The Veterinary Journal

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Nonsteroidal anti-inflammatory drug (NSAID)-activated gene (NAG-1), a divergent member of the transforming growth factor β superfamily, was previously identified as a gene induced by several anti-tumorigenic compounds, including NSAIDs and peroxisome proliferator-activated receptor γ (PPARγ) ligands in humans. In this study, canine NAG-1 was characterised from a canine genomic database. Gene induction by some NSAIDs and PPARγ ligands was demonstrated in canine osteosarcoma cell lines. Phylogenetic analysis indicates that canine NAG-1 is more homologous with the corresponding mouse and rat genes than with human NAG-1. Expression of canine NAG-1 was increased by treatment with piroxicam and SC-560 (NSAIDs) and the PPARγ ligand rosiglitazone. This study demonstrates that canine NAG-1 is up-regulated by some anti-tumorigenic compounds in osteosarcoma cell lines and may provide an important target of chemotherapy in canine cancer.

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“…GDF-15, or macrophage inhibitory cytokine 1, was originally identified as a factor secreted by activated macrophages (5). Sequence analysis has shown that it is a more distant member of the TGF␤ family (6); GDF-15 shares its homology based on the typical TGF␤ cysteine domains, but shares Ͻ30% sequence homology with other family members such as TGF␤1, GDF-5, and bone morphogenetic proteins.…”

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confidence: 99%

Growth Differentiation Factor 15, a Marker of Lung Involvement in Systemic Sclerosis, Is Involved in Fibrosis Development but Is not Indispensable for Fibrosis Development

Lambrecht

Smith

Wilde

et al. 2014

Arthritis & Rheumatology

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ObjectiveTransforming growth factor β superfamily members are involved in the pathogenesis of systemic sclerosis (SSc). Growth differentiation factor 15 (GDF‐15) is a distant member of this family. We undertook this study to evaluate the role of GDF‐15 in SSc pathogenesis.MethodsA longitudinal prospective cohort of SSc patients was screened for serum GDF‐15 levels using enzyme‐linked immunosorbent assay, and associations with clinical data were analyzed. In vitro stimulation experiments were performed on lung fibroblasts. The role of GDF‐15 in fibrosis development in vivo was evaluated in the bleomycin lung fibrosis model in GDF‐15–deficient mice.ResultsGDF‐15 was measured at baseline in serum samples from 119 SSc patients. An increase in GDF‐15 levels was observed in patients classified as having no skin involvement, those with limited cutaneous SSc, and those with diffuse cutaneous SSc. Moreover, baseline serum GDF‐15 levels correlated strongly with disease activity and extent of organ involvement, particularly clinical symptoms of lung fibrosis, including impact on lung function at prospective followup. This was mimicked in the bleomycin model of SSc, in which animals exposed to bleomycin had elevated expression levels of GDF‐15 in lung tissue. Lung fibroblasts isolated from GDF‐15–deficient mice showed reduced induction of interleukin‐6 and CCL2 upon bleomycin stimulation. Surprisingly, no differences in fibrosis development were observed between wild‐type and GDF‐15–deficient animals.ConclusionAn intriguing profile of serum GDF‐15 levels was found in SSc patients. GDF‐15 expression is induced during fibrosis development and markedly correlates with lung function impairment in this disease. The protein may participate in fibrosis initiation, but is not indispensable in the course of fibrosis development in vivo.

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MIC-1, a novel macrophage inhibitory cytokine, is a divergent member of the TGF-β superfamily

Cited by 1,031 publications

References 39 publications

Enhancing the secretion of recombinant proteins by engineering N‐glycosylation sites

Enhancing the secretion of recombinant proteins by engineering N‐glycosylation sites

Molecular characterisation of canine nonsteroidal anti-inflammatory drug-activated gene (NAG-1)

Growth Differentiation Factor 15, a Marker of Lung Involvement in Systemic Sclerosis, Is Involved in Fibrosis Development but Is not Indispensable for Fibrosis Development

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