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Molecular Farming Symposium

Plants as a substitute system for the pharmaceutical protein production and humanization of N-glycosylation

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  • 발행기관
    한국생물공학회 바로가기
  • 간행물
    한국생물공학회 학술대회 바로가기
  • 통권
    2009 춘계학술대회 및 국제심포지움 (2009.04)바로가기
  • 페이지
    pp.75-75
  • 저자
    Kyun Oh Lee
  • 언어
    영어(ENG)
  • URL
    https://www.earticle.net/Article/A104615

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원문정보

초록

영어
Glycosylation is a major post-translational protein modification, which alters physicochemical properties of the protein, affecting the folding, distribution, stability and thus biological function and efficiency of protein. Nglycosylation begins in the endoplasmic reticulum (ER) with the synthesis and the co-translational transfer of a lipidlinked oligosaccharide precursor to specific asparagine (N) residues of the nascent polypeptide chain. During the maturation in the ER and the Golgi complex, N-glycans can be further modified by glycosidases and glycosyltransferases until the glycoprotein arrives in its final destination. After their maturation, some plant type
complex N-glycans are distinctive from those found in mammalian because they contain β1,2-xylose and core α1,3-fucose residues attached to the pentasaccharide (Man3GlcNAc2) core structure but no sialic acid residues. The presence of β1,2-xylose and core α1,3-fucose residues on plant type complex N-glycans has long been an irritating limitation in the use of plant-made pharmaceuticals (PMPs) in human therapy, as these N-glycan epitopes are
potentially immunogenic in mammals. However, considerable improvement has been made towards humanization of N-glycosylation in plants to remove the potential limits of plant cells as a factory for the production of pharmaceutical glycoproteins. The addition of the potentially immunogenic β1,2-xylose and core α1,3-fucose residues on plant-made pharmaceuticals may be avoided when the expressions of responsible glycosyltransferases have been interfered or
removed by RNA interference (RNAi) or gene knockout techniques, respectively. Alternatively, cgl mutants lacking N-acetylglucosaminyltransferase I (GnTI) activity synthesize only oligomannosidic N-glycans and ER retention of the recombinant protein may be used to restrict glycosylation of target proteins to only high-mannose type N-glycans. In addition, N-glycosylation also plays important roles in the quality control (QC) of glycoprotein folding in the ER lumen and in ER-associated degradation (ERAD) of proteins by cytosolic proteasomes. Protein QC in the ER lumen is functionally linked to unfolded protein response (UPR), namely, an increase of misfolded protein in the ER is sensed as an ‘ER stress’ and induces increased synthesis of UPR- and ERAD-associated genes. Plants are emerging as a substitute system for the pharmaceutical protein production because of their practical, economic and safety advantages. However, the limitations of plants as a pharmaceutical protein production system should be carefully considered and ameliorated. (Supported by BK21 program)

저자

  • Kyun Oh Lee [ Division of Applied Life Science (BK21 Program), EB-NCRC and PMBBRC, Gyeongsang National University ]

참고문헌

자료제공 : 네이버학술정보

간행물 정보

발행기관

  • 발행기관명
    한국생물공학회 [The Korean Society for Biotechnology and Bioengineering]
  • 설립연도
    1984
  • 분야
    공학>생물공학
  • 소개
    이 법인은 생물 공학의 발전과 보급에 이바지하고, 회원 상호 간의 연구 협력과 친목을 도모함을 목적으로 한다 1. 생물공학 분야의 발전을 위한 연구 협력 2. 생물공학의 실용화를 촉진시키기 위한 산학 협동 3. 학술연구 발표회, 강연회, 연수회 등 학술활동의 개최 4. 국,영문 학술지,소식지,학술회의 Proceedings 및 학술도서의 발간 5. 생물공학 발전을 위한 정책 건의 6. 기타 국제 교류 등 본 학회의 목적 달성을 위한 제반 활동

간행물

  • 간행물명
    한국생물공학회 학술대회
  • 간기
    반년간
  • 수록기간
    1985~2013
  • 십진분류
    KDC 476 DDC 576

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