N‑Linked Glycosylation Prevents Deamidation of Glycopeptide and Glycoprotein

Deamidation has been recognized as a common spontaneous pathway of protein degradation and a prevalent concern in the pharmaceutical industry; deamidation caused the reduction of protein/peptide drug efficacy and shelf life in several cases. More importantly, deamidation of physiological proteins is...

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Veröffentlicht in:	ACS chemical biology 2020-12, Vol.15 (12), p.3197-3205
Hauptverfasser:	Zhu, Hailiang Joshua, Liu, Ding, Tran, Vy P, Wu, Zhigang, Jiang, Kuan, Zhu, He, Zhang, Jiabin, Gibbons, Christopher, Xue, Bingzhong, Shi, Hang, Wang, Peng George
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creator	Zhu, Hailiang Joshua Liu, Ding Tran, Vy P Wu, Zhigang Jiang, Kuan Zhu, He Zhang, Jiabin Gibbons, Christopher Xue, Bingzhong Shi, Hang Wang, Peng George
description	Deamidation has been recognized as a common spontaneous pathway of protein degradation and a prevalent concern in the pharmaceutical industry; deamidation caused the reduction of protein/peptide drug efficacy and shelf life in several cases. More importantly, deamidation of physiological proteins is related to several human diseases and considered a “timer” for the diseases. N-linked glycosylation has a variety of significant biological functions, and it interestingly occurs right on the deamidation siteasparagine. It has been perceived that N-glycosylation could prevent deamidation, but experimental support is still lacking for clearly understanding the role of N-glycosylation on deamidation. Our results presented that deamidation is prevented by naturally occurring N-linked glycosylation. Glycopeptides and corresponding nonglycosylated peptides were used to compare their deamidation rates. All the nonglycosylated peptides have different half-lives ranging from one to 20 days, for the corresponding glycosylated peptides; all the results showed that the deamidation reaction was significantly reduced by the introduction of N-linked glycosylation. A glycoprotein, RNase B, also showed a significantly elongated deamidation half-life compared to nonglycosylated protein RNase A. At last, N-linked glycosylation on INGAP-P, a therapeutic peptide, increased the deamidation half-life of INGAP-P as well as its therapeutic potency.
doi_str_mv	10.1021/acschembio.0c00734
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More importantly, deamidation of physiological proteins is related to several human diseases and considered a “timer” for the diseases. N-linked glycosylation has a variety of significant biological functions, and it interestingly occurs right on the deamidation siteasparagine. It has been perceived that N-glycosylation could prevent deamidation, but experimental support is still lacking for clearly understanding the role of N-glycosylation on deamidation. Our results presented that deamidation is prevented by naturally occurring N-linked glycosylation. Glycopeptides and corresponding nonglycosylated peptides were used to compare their deamidation rates. All the nonglycosylated peptides have different half-lives ranging from one to 20 days, for the corresponding glycosylated peptides; all the results showed that the deamidation reaction was significantly reduced by the introduction of N-linked glycosylation. A glycoprotein, RNase B, also showed a significantly elongated deamidation half-life compared to nonglycosylated protein RNase A. 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Biol</addtitle><date>2020-12-18</date><risdate>2020</risdate><volume>15</volume><issue>12</issue><spage>3197</spage><epage>3205</epage><pages>3197-3205</pages><issn>1554-8929</issn><eissn>1554-8937</eissn><abstract>Deamidation has been recognized as a common spontaneous pathway of protein degradation and a prevalent concern in the pharmaceutical industry; deamidation caused the reduction of protein/peptide drug efficacy and shelf life in several cases. More importantly, deamidation of physiological proteins is related to several human diseases and considered a “timer” for the diseases. N-linked glycosylation has a variety of significant biological functions, and it interestingly occurs right on the deamidation siteasparagine. It has been perceived that N-glycosylation could prevent deamidation, but experimental support is still lacking for clearly understanding the role of N-glycosylation on deamidation. 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title	N‑Linked Glycosylation Prevents Deamidation of Glycopeptide and Glycoprotein
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