“Hemp (Cannabis sativa L.) is a versatile crop that can be processed to obtain different products with multiple applications. Its seeds are a well-documented ancient source of proteins, fibers and fats, all of which possess high nutritional value. Additionally, metabolites such as flavones and phenols are present in the seeds, contributing to their antioxidant properties.

Due to hemp seeds’ distinctive nutritional profile, the interest in exploring the potential use in food and nutraceuticals is growing, and they can be considered an interesting and promising alternative resource for human and animal feeding. Omics studies on hemp seeds and their by-products are also being developed, and they contribute to improving our knowledge about the genome, transcriptome, proteome, metabolome/lipidome, and ionome of these sustainable food resources.

This review illustrates the main nutrients and bioactive compounds of hemp seeds and explores the most relevant omics techniques and investigations related to them. It also addresses the various products derived from processing the whole seed, such as oil, dehulled seeds, hulls, flour, cakes, meals, and proteins. Moreover, this work discusses research aimed at elucidating the molecular mechanisms underlying their protein, lipid, fiber, and metabolic profile. The advantages of using omics and multi-omics approaches to highlight the nutritional values of hemp seed by-products are also discussed.

In our opinion, this work represents an excellent starting point for researchers interested in studying hemp seeds as source of nutrients and bioactive compounds from a multi-level molecular perspective.”

https://pubmed.ncbi.nlm.nih.gov/40508032/

“By advancing the understanding and utilization of hemp seeds and their by-products in food, feed, and medical applications, we hope to contribute to positioning hemp as a sustainable and valuable resource for the future.”

https://www.mdpi.com/1422-0067/26/11/5219

“Mesenchymal stem cells isolated from human adipose tissue (hASCs) are a promising tool for tissue repair due to their ability to differentiate into specific cell lineages. The possibility of modulating the adipogenic differentiation of hASCs is crucial in improving their therapeutic potential.

This study aimed to investigate the effects of cannabidiol (CBD), a phytocannabinoid isolated from Cannabis sativa L., on hASCs. Few studies have evaluated its role in stem cell (SC) properties and their differentiation potential.

hASCs were first treated with different concentrations of CBD (ranging from 0.1 to 10 μM) to assess its effects on viability, demonstrating that this molecule is non-toxic, except at the concentration of 10 μM. Subsequently, the role of CBD in the proliferation, metabolism and adipogenic potential of hASCs was analyzed.

CBD promoted adipogenesis in a dose-dependent manner, even in the absence of differentiation medium. This result was evidenced by the presence of lipid vacuoles, the expression of adipogenic markers, cytoskeletal actin rearrangement and modulation in the expression of osteogenic genes.

Although the results indicated a role of CBD in promoting hASC adipogenesis, further research will be needed to explore the mechanism of action of CBD in SC differentiation and to deepen its utility in SC-based approaches.”

https://pubmed.ncbi.nlm.nih.gov/40509260/

“Therefore, as the field of regenerative medicine continues to evolve, the integration of CBD’s properties into therapeutic strategies could hold significant promise in terms of enhancing tissue repair and recovery, offering novel strategies for optimizing healing outcomes and improving patient well-being.”

https://www.mdpi.com/1420-3049/30/11/2367