a. In earlier work we have been able to improve growth properties of mammalian cells as a result of identifying microRNAs that affect cells apoptosis in CHO cells. By using microarray, bioinformatics and experimental tools we identified the miR-466h -5p as an apoptosis enhancer agent. By stably inhibiting this microRNA in CHO cells it was possible to increase the cells ability to resist apoptosis and to increase their production properties. These engineered cells reached higher maximum viable cell density compared with parental CHO, and the expression of secreted alkaline phosphatase (SEAP) from these cells was 43% higher compared with the stable pools of negative control CHO cells. These results demonstrated the potential of this novel approach to create more productive cell lines through stable manipulation of specific miRNA expression. b. We followed this work with implementing high throughput method to explore the possibility of enhancing expression of membrane proteins by using microRNA. A stable T-REx-293 cell line expressing the neurotensin receptor 1 (NTSR1), a hard-to-express G protein-coupled receptor (GPCR), was constructed. The cell line was then subjected to high-throughput human miRNA mimic library screening. Five microRNA mimics: hsa-miR-22-5p, hsa-miR-18a-5p, hsa-miR-22-3p, hsa-miR-429 and hsa-miR-2110 were identified to improve functional expression of NTSR1 by as much as 48%. In parallel, an HEK293 cell lines expressing luciferase, serotonin receptor and a secreted protein were also screened with the same human miRNA mimic library. All five identified microRNA mimics were found to enhance the expression of these proteins which is an indication that these molecules may have a wider role in recombinant protein expression from these cells. c. Generation of Immortalized MEF cell lines to study O-GlcNAc Metabolism and Neurodegeneration: O-GlcNAcylation is an abundant post-translational modification in which the monosaccharide β-Nacetyl-D-glucosamine (O-GlcNAc) is added to and removed from Ser/Thr residues by O GlcNAc transferase (OGT) and O GlcNAcase (OGA), respectively. Signalling and metabolism are affected in null alleles of OGT and OGA in C. elegans and D. melanogaster, hence suggesting that O-GlcNAc metabolism serves an essential function. The implications of O-GlcNAc metabolism are difficult to study in vertebrates as conditional knockout mutants of the enzymes of O GlcNAc cycling result in low viability of embryos or embryonic lethality. OGA and OGT knockout mutants have been generated in mice, and primary MEFs have been used to study O-GlcNAc cycling. But since the use of primary MEFs is time consuming and results can be difficult to replicate immortalized wild type, OGA null allele, and OGT floxed allele MEF cell lines were generated to study O-GlcNAc metabolism. We evaluated several approaches for MEF immortalization. When cultivated at 3% O2, some primary MEF lines could be proliferated for >40 passages with a median doubling rate of 4555hrs (n=8). However, serial passaging at 3% O2 achieved spontaneous immortalization with varying success. If cultures seemed to be reaching their Hayflick limit when cultivated at 3% O2, supplementing the culture media with 5uM ROCK inhibitor Y-27632 helped to extend proliferation and achieve spontaneous immortalization. MEFs immortalized via SV40 Ta infection reliably produced cell lines with a median doubling rate of 259 hours (n=9) and viability greater than 90%..

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Project End
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4
Fiscal Year
2015
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Indirect Cost
Name
U.S. National Inst Diabetes/Digst/Kidney
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Inwood, Sarah; Betenbaugh, Michael J; Shiloach, Joseph (2018) Methods for Using Small Non-Coding RNAs to Improve Recombinant Protein Expression in Mammalian Cells. Genes (Basel) 9:
Inwood, Sarah; Buehler, Eugen; Betenbaugh, Michael et al. (2018) Identifying HIPK1 as Target of miR-22-3p Enhancing Recombinant Protein Production From HEK 293 Cell by Using Microarray and HTP siRNA Screen. Biotechnol J 13:
Abaandou, Laura; Shiloach, Joseph (2018) Knocking out Ornithine Decarboxylase Antizyme 1 (OAZ1) Improves Recombinant Protein Expression in the HEK293 Cell Line. Med Sci (Basel) 6:
Chu, Chia; Bottaro, Donald P; Betenbaugh, Michael J et al. (2016) Stable Ectopic Expression of ST6GALNAC5 Induces Autocrine MET Activation and Anchorage-Independence in MDCK Cells. PLoS One 11:e0148075
Xiao, Su; Chen, Yu Chi; Buehler, Eugen et al. (2016) Genome-scale RNA interference screen identifies antizyme 1 (OAZ1) as a target for improvement of recombinant protein production in mammalian cells. Biotechnol Bioeng 113:2403-15
Gallagher, Emily J; LeRoith, Derek; Stasinopoulos, Marilyn et al. (2016) Polyol accumulation in muscle and liver in a mouse model of type 2 diabetes. J Diabetes Complications 30:999-1007
Kumar, Amit; Baycin-Hizal, Deniz; Shiloach, Joseph et al. (2015) Coupling enrichment methods with proteomics for understanding and treating disease. Proteomics Clin Appl 9:33-47
Kumar, Amit; Shiloach, Joseph; Betenbaugh, Michael J et al. (2015) The beta-3 adrenergic agonist (CL-316,243) restores the expression of down-regulated fatty acid oxidation genes in type 2 diabetic mice. Nutr Metab (Lond) 12:8
Xiao, Su; Shiloach, Joseph; Grisshammer, Reinhard (2015) Construction of recombinant HEK293 cell lines for the expression of the neurotensin receptor NTSR1. Methods Mol Biol 1272:51-64
Xiao, Su; Chen, Yu-Chi; Betenbaugh, Michael J et al. (2015) MiRNA mimic screen for improved expression of functional neurotensin receptor from HEK293 cells. Biotechnol Bioeng 112:1632-43

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