:Lentztrehalose
{{Short description|Bioactive Natural Product}}
Lentztrehaloses A, B, and C are trehalose analogues found in an actinomycete Lentzea sp. ML457-mF8.{{Cite journal|last1=Wada|first1=Shun-ichi|last2=Ohba|first2=Shun-ichi|last3=Someno|first3=Tetsuya|last4=Hatano|first4=Masaki|last5=Nomoto|first5=Akio|date=2014|title=Structure and biological properties of lentztrehalose: a novel trehalose analog|journal=The Journal of Antibiotics|language=en|volume=67|issue=4|pages=319–322|doi=10.1038/ja.2013.143|pmid=24448628|issn=0021-8820|doi-access=free}}{{Cite journal|last1=Wada|first1=Shun-ichi|last2=Kubota|first2=Yumiko|last3=Sawa|first3=Ryuichi|last4=Umekita|first4=Maya|last5=Hatano|first5=Masaki|last6=Ohba|first6=Shun-ichi|last7=Hayashi|first7=Chigusa|last8=Igarashi|first8=Masayuki|last9=Nomoto|first9=Akio|date=2015|title=Novel autophagy inducers lentztrehaloses A, B and C|url= |journal=The Journal of Antibiotics|language=en|volume=68|issue=8|pages=521–529|doi=10.1038/ja.2015.23|issn=0021-8820|pmc=4579591|pmid=25757606}} Lentztrehaloses A and B can be synthesized chemically.{{Cite journal|last1=Zhang|first1=Ming|last2=Wada|first2=Shun-ichi|last3=Amemiya|first3=Fuyuki|last4=Watanabe|first4=Takumi|last5=Shibasaki|first5=Masakatsu|date=2015|title=Synthesis and Determination of Absolute Configuration of Lentztrehalose A|url=https://www.jstage.jst.go.jp/article/cpb/63/11/63_c15-00600/_article|journal=Chemical & Pharmaceutical Bulletin|language=en|volume=63|issue=11|pages=961–966|doi=10.1248/cpb.c15-00600|pmid=26521862|issn=0009-2363|doi-access=free}} The non-reducing disaccharide trehalose is commonly used in foods and various products as stabilizer and humectant, respectively. Trehalose has been shown to have curative effects for treating various diseases in animal models including neurodegenerative diseases, hepatic diseases, and arteriosclerosis. Trehalose, however, is readily digested by hydrolytic enzyme trehalase that is widely expressed in many organisms from microbes to human. As a result, trehalose may cause decomposition of the containing products, and its medicinal effect may be reduced by the hydrolysis by trehalase. Lentztrehaloses are rarely hydrolyzed by microbial and mammalian trehalases{{Cite journal|last1=Wada|first1=Shun-ichi|last2=Sawa|first2=Ryuichi|last3=Ohba|first3=Shun-ichi|last4=Hayashi|first4=Chigusa|last5=Umekita|first5=Maya|last6=Shibuya|first6=Yuko|last7=Iijima|first7=Kiyoko|last8=Iwanami|first8=Fumiki|last9=Igarashi|first9=Masayuki|date=2016-09-28|title=Stability and Bioavailability of Lentztrehaloses A, B, and C as Replacements for Trehalose|url=https://pubs.acs.org/doi/10.1021/acs.jafc.6b02782|journal=Journal of Agricultural and Food Chemistry|language=en|volume=64|issue=38|pages=7121–7126|doi=10.1021/acs.jafc.6b02782|pmid=27595314|bibcode=2016JAFC...64.7121W |issn=0021-8561|url-access=subscription}} and may be used in various areas as a biologically stable substitute of trehalose.