Аnti-obesity and Longevity Promotion Properties of Dietary Plants and Herbs
Obesity presents a significant challenge to the modern society, imposing a substantial burden on health systems and individuals alike. Nowadays, more than a billion people globally are considered obese, a condition that does not solely refer to weight management but rather to mitigating its far-reaching consequences on healthspan and lifespan [1]. Individuals diagnosed with obesity are predisposed to comorbidities including type 2 diabetes, cardiovascular disease, and metabolic complications often referred to as metabolic syndrome. Most importantly, obesity is associated with a reduction in disease-free years, an excess risk of premature death, and accelerated aging [1, 2].On the other hand, we live in a rapidly aging world, with an expectancy of more than a 2 billion people aged 65 years (or older) by 2050, alongside a rising proportion of age-related diseases. Thus, both obesity and ageing are, per se, different sides of the same coin and represent healthcare burden on our society [1, 2]. The development of strategies targeting both of these processes now becomes a challenge for science. Central to this pursuit is the recognition that metabolic health serves as a cornerstone for both healthy weight maintenance and prolonged lifespan [2]. Additionally, key molecular pathways attributed to nutrient signalling that are implicated in obesity progression, intersect with those fundamental to longevity, suggesting potential shared targets for intervention [2].
Utilizing the model organism Caenorhabditis elegans (nematode), along with combining omics and molecular pharmacology approaches, our research focuses on the discovery of natural products that target these shared pathways [1-4]. Through our approach, we aim not only to mitigate the adverse effects of obesity but also to uncover novel strategies for promoting healthy aging and longevity.
Acknowledgements: MIG acknowledges financial support from the European Regional Development Fund through Programme Research Innovation and Digitalisation for Smart Transformation, Grant agreement № BG16RFPR002-1.014-0003-C01.
References:
[1] Savova MS, Mihaylova LV, Tews D, Wabitsch M, Georgiev MI (2023) Targeting PI3K/AKT signaling pathway in obesity. Biomedicine & Pharmacotherapy, 159: 114244.
[2] Todorova MN, Savova MS, Mihaylova LV, Georgiev MI (2024) Nurturing longevity through natural compounds: Where do we stand, and where do we go? Food Frontiers, 5: 267-310.
[3] Savova MS, Vasileva LV, Mladenova SG, Amirova KM, Ferrante C, Orlando G, Wabitsch M, Georgiev MI (2021) Ziziphus jujuba Mill. leaf extract restrains adipogenesis by targeting PI3K/AKT signaling pathway. Biomedicine & Pharmacotherapy, 141: 111934.
[4] Todorova MN, Savova MS, Mihaylova LV, Georgiev MI (2024) Punica granatum L. leaf extract enhances stress tolerance and promotes healthy longevity through HLH-30/TFEB, DAF16/FOXO, and SKN1/NRF2 crosstalk in Caenorhabditis elegans. Phytomedicine, 134: 155971.
講者: Prof. Dr. Milen I. Georgiev (Head of Department of Plant Cell Biotechnology at CPSBB and Metabolomics Lab at Institute of Microbiology (Bulgarian Academy of Sciences), Bulgaria)主持人: Dr. Hui-Ming Chen
時間:2025/07/14 11:00 AM
地點:農業科技大樓1樓A134演講廳