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Main Authors: Zheng, Qianjing, Khan, Salman, Li, Jinchang, Wang, Tingting
Format: Artículo científico
Language:en
Published: European journal of medicinal chemistry 2026
Subjects:
Online Access:https://pubmed.ncbi.nlm.nih.gov/41138334/
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author Zheng, Qianjing
Khan, Salman
Li, Jinchang
Wang, Tingting
author_facet Zheng, Qianjing
Khan, Salman
Li, Jinchang
Wang, Tingting
Zheng, Qianjing
Khan, Salman
Li, Jinchang
Wang, Tingting
collection PubMed - marine biology
contents Marine-derived natural products as anti-osteoporosis agents. Zheng, Qianjing Khan, Salman Li, Jinchang Wang, Tingting Biological Products Osteoporosis Humans Aquatic Organisms Animals Polyketides Molecular Structure Terpenes Osteoporosis is a prevalent global disease that imposes a significant burden on public health. Marine ecosystems, rich in natural resources, have provided a wide variety of natural products, many of which show promising potential to combat bone resorption and promote bone formation. This review systematically summarizes 152 marine-derived natural products with anti-osteoporotic activity, predominantly polyketides and terpenoids sourced from marine fungi, and elucidates their biosynthetic pathways and total synthesis strategies to accelerate the development of osteoporosis therapeutics. The review also discusses the key challenges associated with translating anti-osteoporotic natural products from lead compounds discovery into commercial development, and proposes emerging technologies such as genome mining and synthetic biology as promising strategies to overcome these barriers. By integrating advanced biotechnological advancements, this work aims to facilitate the translation of marine-derived compounds into clinically viable osteoporosis treatments. This paper highlights the foundation for future exploration of marine-derived compounds with anti-osteoporosis activity and underscores the importance of a multidisciplinary approach in addressing therapeutic needs for osteoporosis treatment.
format Artículo científico
id pubmed_41138334
institution PubMed
language en
publishDate 2026
publisher European journal of medicinal chemistry
record_format pubmed
spellingShingle Marine-derived natural products as anti-osteoporosis agents.
Zheng, Qianjing
Khan, Salman
Li, Jinchang
Wang, Tingting
Biological Products
Osteoporosis
Humans
Aquatic Organisms
Animals
Polyketides
Molecular Structure
Terpenes
Marine-derived natural products as anti-osteoporosis agents. Zheng, Qianjing Khan, Salman Li, Jinchang Wang, Tingting Biological Products Osteoporosis Humans Aquatic Organisms Animals Polyketides Molecular Structure Terpenes Osteoporosis is a prevalent global disease that imposes a significant burden on public health. Marine ecosystems, rich in natural resources, have provided a wide variety of natural products, many of which show promising potential to combat bone resorption and promote bone formation. This review systematically summarizes 152 marine-derived natural products with anti-osteoporotic activity, predominantly polyketides and terpenoids sourced from marine fungi, and elucidates their biosynthetic pathways and total synthesis strategies to accelerate the development of osteoporosis therapeutics. The review also discusses the key challenges associated with translating anti-osteoporotic natural products from lead compounds discovery into commercial development, and proposes emerging technologies such as genome mining and synthetic biology as promising strategies to overcome these barriers. By integrating advanced biotechnological advancements, this work aims to facilitate the translation of marine-derived compounds into clinically viable osteoporosis treatments. This paper highlights the foundation for future exploration of marine-derived compounds with anti-osteoporosis activity and underscores the importance of a multidisciplinary approach in addressing therapeutic needs for osteoporosis treatment.
title Marine-derived natural products as anti-osteoporosis agents.
topic Biological Products
Osteoporosis
Humans
Aquatic Organisms
Animals
Polyketides
Molecular Structure
Terpenes
url https://pubmed.ncbi.nlm.nih.gov/41138334/