Abstract
The global increase in metabolic syndrome, characterized by the dysregulation of carbohydrate and lipid metabolism accompanied by oxidative stress and chronic inflammation, has driven research into plant species rich in polyphenols capable of modulating these pathophysiological mechanisms. Mexican species of the genus Arbutus represent a potential source of phenolic compounds with functional relevance; however, they remain poorly explored phytochemically and biologically. The present study aimed to characterize the phytochemical profile and evaluate the biological activity of 1% (w/v) leaf infusions of A. bicolor, A. tessellata, A. madrensis, A. arizonica, and A. occidentalis. Proximal analyses, spectrophotometric determinations of total phenols, flavonoids, and proanthocyanidins, as well as characterization by UPLC–ESI–MS/MS were performed. In vitro antioxidant, anti-inflammatory, and digestive enzyme inhibitory activities were also evaluated. Proximate analysis revealed that carbohydrates constituted the predominant component (72–82%), followed by lipids (3–12%), proteins (4–8%), ash (3–5%), and moisture (5–6%). The total phenolic content ranged from 25.39 to 64.14 mg EAG, being A. occidentalis the species with the highest concentration, while total flavonoids ranged from 14.91 to 33.33 mg EC per gram of dry weight. A total of 38 phenolic compounds were identified, exhibiting marked interspecific variability. A. occidentalis, distinguished by its high ellagitannin content, exhibited the highest antioxidant capacity (ORAC: 10.40 mM TEAC/g) and notable erythrocyte membrane stabilization (~69%). Enzymatic inhibition demonstrated differential profiles: A. tessellata showed the most significant inhibition of α-amylase (80.19%), whereas A. bicolor exhibited higher inhibition of α-glucosidase (81.88%) and pancreatic lipase (74.26%) could be associated with stilbenes such as resveratrol. Bioactivity was more strongly associated with the specific phytochemical profile than with total phenolic content. These findings suggest that Arbutus spp. leaf infusions may represent multifunctional phytochemical matrices with potential relevance in metabolic syndrome management.