Chemical Synthesis of Acetobacter pasteurianus Lipid A with a Unique Tetrasaccharide Backbone and Evaluation of Its Immunological Functions

Author:

Yamaura Haruki12,Shimoyama Atsushi134ORCID,Hosomi Koji2,Kabayama Kazuya14,Kunisawa Jun24,Fukase Koichi134ORCID

Affiliation:

1. Department of Chemistry Graduate School of Science Osaka University 1-1 Machikaneyama 560-0043 Toyonaka Osaka Japan

2. Laboratory of Vaccine Materials and Laboratory of Gut Environmental System Microbial Research Center for Health and Medicine National Institutes of Biomedical Innovation, Health and Nutrition 567-0085 Osaka Japan

3. Center for Advanced Modalities and DDS Osaka University 1-1 Yamadaoka 565-0871 Suita Osaka Japan

4. Forefront Research Center for Fundamental Sciences Osaka University 1-1 Machikaneyama 560-0043 Toyonaka Osaka Japan

Abstract

AbstractLipopolysaccharide (LPS), a cell surface component of Gram‐negative bacteria, activates innate immunity. Its active principle is the terminal glycolipid lipid A. Acetobacter pasteurianus is a Gram‐negative bacterium used in the fermentation of traditional Japanese black rice vinegar (kurozu). In this study, we focused on A. pasteurianus lipid A, which is a potential immunostimulatory component of kurozu. The active principle structure of A. pasteurianus lipid A has not yet been identified. Herein, we first systematically synthesized three types of A. pasteurianus lipid As containing a common and unique tetrasaccharide backbone. We developed an efficient method for constructing the 2‐trehalosamine skeleton utilizing borinic acid‐catalyzed glycosylation to afford 1,1’‐α,α‐glycoside in high yield and stereoselectivity. A common tetrasaccharide intermediate with an orthogonal protecting group pattern was constructed via [2+2] glycosylation. After introducing various fatty acids, all protecting groups were removed to achieve the first chemical synthesis of three distinct types of A. pasteurianus lipid As. After evaluating their immunological function using both human and murine cell lines, we identified the active principles of A. pasteurianus LPS. We also found the unique anomeric structure of A. pasteurianus lipid A contributes to its high chemical stability.

Funder

Japan Society for the Promotion of Science

Core Research for Evolutional Science and Technology

Japan Agency for Medical Research and Development

Publisher

Wiley

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