Transcriptome profiling of two Moringa species and insights into their antihyperglycemic activity.

BACKGROUND: Moringa concanensis Nimmo (MC), a plant that resembles Moringa oleifera Lam. (MO), has less scientific information but has traditionally been used as a medicinal plant. Moringa species have long been known for their medicinal qualities, which include antioxidant, anti-inflammatory, anticancer, and antihyperglycemic effects. We investigated the antidiabetic potential of MC and MO species in this study by using transcriptome profiling, metabolite analysis, and in vitro assay studies. RESULTS: Our transcriptome analysis revealed the expression of enzymes involved in the biosynthesis of quercetin, chlorogenic acid, and benzylamine, all of which have previously been shown to have antidiabetic activity. We compared the expression patterns of five different tissues from MC and MO and it was found that the key enzymes involved in the biosynthesis of these compounds were highly expressed in leaf tissue. The expression estimated by MC transcriptome data in different tissues was verified using RT-qPCR analysis. The amount of these compounds was further quantified in the crude leaf extract of both species and found that MC had a higher abundance of quercetin and chlorogenic acid than MO. The crude leaf extract from both MC and MO were further tested in vitro, and the results demonstrated strong inhibitory activity for α-glucosidase and DPP-IV enzymes. Our findings suggest that compounds in leaf tissue, such as quercetin, benzylamine, and chlorogenic acid, could play a significant role in this antidiabetic activity. In addition, when comparing MO plants, we found that MC had a slightly higher effect in expression, abundance, and inhibitory activity. CONCLUSIONS: This study presents the first report of MC transcriptome data, as well as a comparison of its anti-diabetic activity to MO. Our analysis discussed the significance of leaf tissue in antidiabetic activity compared to other tissues of both species. Overall, this study not only provides transcriptome resources for Moringa species, but also sheds light on antidiabetic potential of both species.

An 'Ayurveda-Biology' platform for integrative diabetes management.

ETHNOPHARMACOLOGICAL RELEVANCE: Diabetes is a multifactorial disease with complex multi-organ-multi-target crosstalk in the body. Currently, the theoretical assumptions framing the diabetes management strategies are reductionist and largely focus on reducing hyperglycemia through targeted molecular drugs. While they effectively reduce hyperglycemia, they are inadequate to address the multifactorial etiopathology, chronicity and systemic complications of diabetes. Therefore, a holistic and systemic approach is essential for its successful management. We hypothesize an integrative diabetes management strategy, combining holistic principles of diabetes management with its molecular understandings, would be more appropriate to fill this gap. The holistic disease management principles of Ayurveda, the Indian system of medicine, can play a pivotal role in this context. This narrative review discusses the scope of a trans-disciplinary ' Ayurveda-Biology ' approach for deepening the holistic understanding of the pathophysiology of diabetes as well as designing novel integrative strategies for managing diabetes and restoring whole body glucose homeostasis. METHODOLOGY: The article analyses the Ayurveda scheme of diabetes management and correlates it with the molecular understanding of its pathophysiology and management. The sources of information used in this article include classical texts of Ayurveda , medical books, published research articles and scientific databases like PubMed, Google Scholar, Science-Direct, etc. RESULTS: While Ayurveda and modern biomedicine uses different epistemology and ontology for describing diabetes, both the systems recognize the central role of gut and gut derived factors in postprandial glucose disposal and whole body glucose homeostasis. Essentially, the principles of both Ayurveda and modern biomedicine overlap at a gut centred view of diabetes management; and Gastro-intestinal mediated glucose disposal , a holistic concept of glucose metabolism, is emerging as a converging node for designing innovative integrative diabetes management strategies. CONCLUSIONS: An integrative disease management strategy, combining holistic and reductionist perspectives of traditional medicine and biology respectively, would be the prerogative for successful management of diabetes. Creating an ' Ayurveda-Biology' knowledge framework integrating the patient centred holistic management principles of Ayurveda and the molecular approaches of modern biology can give better insights into the biology of whole body glucose homeostasis and offer novel strategies for cost effective, holistic and multi-targeted management of diabetes.