1. Academic Validation
  2. Multiple and multivalent interactions of novel anti-AIDS drug candidates, sulfated polymannuronate (SPMG)-derived oligosaccharides, with gp120 and their anti-HIV activities

Multiple and multivalent interactions of novel anti-AIDS drug candidates, sulfated polymannuronate (SPMG)-derived oligosaccharides, with gp120 and their anti-HIV activities

  • Glycobiology. 2005 May;15(5):501-10. doi: 10.1093/glycob/cwi031.
Haiying Liu 1 Meiyu Geng Xianliang Xin Fuchuan Li Zhenqing Zhang Jing Li Jian Ding
Affiliations

Affiliation

  • 1 Department of Pharmacology, Marine Drug and Food Institute, Ocean University of China, Qingdao 266003, People's Republic of China.
Abstract

Sulfated polymannuronate (SPMG), a novel anti-AIDS drug candidate, combats HIV-1 Infection mainly by binding to gp120 protein with high affinity. To explore the structural basis of this anti-HIV-1 action, size-defined oligosaccharides were prepared by semi-synthesis or separated from native SPMG. In this study, a series of homogeneously sized SPMG fragments are evaluated for their capacity to bind rgp120 using surface plasmon resonance (SPR) analysis. The minimum SPMG fragment size that interacts with rgp120 is a hexasaccharide. Additionally, binding capacity increases with the molecular size of oligosaccharides, with the affinity of large fragments (> or = 15-16 Saccharides) approaching that of full-sized SPMG. Competitive inhibition and stoichiometric analyses disclose that SPMG oligos bind to multiple binding sites on gp120. Sugar chains longer than 15-16 saccharide residues (SPMG) display multivalent interactions, with one sugar chain binding to two or three gp120 molecules. Consistent with binding data, a positive correlation exists between the size of SPMG oligosaccharides and their anti-HIV activity. The octasaccharide is established to be the minimal active fragment inhibiting syncytium formation and lowering the P24 core antigen level in HIV-IIIB-infected CEM cells. Alternatively, about 50% anti-HIV activity was observed for 15-16 Saccharides, whereas a 19-20-saccharide fragment displayed anti-HIV activity equivalent to native SPMG. The structures of the unique minimum hexasaccharide specifically recognized by gp120 and the minimum octasaccharide combating HIV-IIIB Infection were representatively structured as [ManA (2s)beta1-4 ManA(2s/3s)]n.

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