Mechanistic insights into the biological activity of S-Sulfocysteine in CHO cells using a multi-omics approach

被引：3

作者：

Nguyen, Melanie ^{[1
,2
]}

Le Mignon, Maxime ^{[1
]}

Schnellbaecher, Alisa ^{[1
]}

Wehsling, Maria ^{[1
]}

Braun, Julian ^{[1
]}

Baumgaertner, Jens ^{[3
]}

Grabner, Martina ^{[1
]}

Zimmer, Aline ^{[1
]}

机构：

[1] Merck Life Sci KGaA, Upstream R&D, Darmstadt, Germany

[2] Tech Univ Darmstadt, Inst Organ Chem & Biochem, Darmstadt, Germany

[3] Merck KGaA, Biomol Analyt & Prote, Darmstadt, Germany

来源：

FRONTIERS IN BIOENGINEERING AND BIOTECHNOLOGY | 2023年 / 11卷

关键词：

S-sulfocysteine; CHO; omics; biological activity; redox control; N-ACETYLCYSTEINE AMIDE; OXIDATIVE STRESS; OPHTHALMIC ACID; GLUTATHIONE; CYSTEINE; ANTIOXIDANT; METABOLISM; PROTECTS; GLUTAREDOXIN; COPPER;

D O I：

10.3389/fbioe.2023.1230422

中图分类号：

Q81 [生物工程学（生物技术）]; Q93 [微生物学];

学科分类号：

071005 ; 0836 ; 090102 ; 100705 ;

摘要：

S-Sulfocysteine (SSC), a bioavailable L-cysteine derivative (Cys), is known to be taken up and metabolized in Chinese hamster ovary (CHO) cells used to produce novel therapeutic biological entities. To gain a deeper mechanistic insight into the SSC biological activity and metabolization, a multi-omics study was performed on industrially relevant CHO-K1 GS cells throughout a fed-batch process, including metabolomic and proteomic profiling combined with multivariate data and pathway analyses. Multi-layered data and enzymatical assays revealed an intracellular SSC/glutathione mixed disulfide formation and glutaredoxin-mediated reduction, releasing Cys and sulfur species. Increased Cys availability was directed towards glutathione and taurine synthesis, while other Cys catabolic pathways were likewise affected, indicating that cells strive to maintain Cys homeostasis and cellular functions.

引用

页数：18

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