Metabolic study of cafestol using in silico approach, zebrafish water tank experiments and liquid chromatography high-resolution mass spectrometry analyses

Tripterygium wilfordii polyglycoside tablets attenuated the progression of hepatocellular carcinoma by targeting IL-6 and downstream signaling pathways in a multi-target manner

Tripterygium wilfordii polyglycoside tablets (TWPT) have traditionally been used to treat certain inflammatory diseases. This study validated TWPT as a novel application in hepatocellular carcinoma treatment through multiple targets, thereby expanding its clinical medication scope. TWPT exhibited a low toxicity and a significantly antihepatoma effects in vitro and in vivo. Through network pharmacology analysis, we found TWPT attenuated the progression of hepatocellular carcinoma by multi-targeting, including IL-6, MMP9, TNF-α and VEGFA. Additionally, TWPT targeted IL-6 to regulate downstream pathways, including the PI3K/Akt, JAK2/STAT3, and MAPK signaling pathways. Thus, TWPT could be developed as a potential therapeutic drug for hepatocellular carcinoma.

Ent-Kaurane Diterpenoids from Coffea Genus: An Update of Chemical Diversity and Biological Aspects

Coffee is one of the most important beverages in the world and is produced from Coffea spp. beans. Diterpenes with ent-kaurane backbones have been described in this genus, and substances such as cafestol and kahweol have been widely investigated, along with their derivatives and biological properties. Other coffee ent-kaurane diterpenoids have been reported with new perspectives on their biological activities. The aim of this review is to update the chemical diversity of ent-kaurane diterpenoids in green and roasted coffee, detailing each new compound and reporting its biological potential. A systematic review was performed using the bibliographic databases (SciFinder, Web of Science, ScienceDirect) and specific keywords such as "coffea diterpenes", "coffee diterpenes", "coffee ent-kaurane diterpenes" and "coffee diterpenoids". Only articles related to the isolation of coffee ent-kaurane compounds were considered. A total of 146 compounds were related to Coffea spp. since the first report in 1932. Different chemical skeletons were observed, and these compounds were grouped as furan-type, oxidation-type, rearrangement-type, lacton-type, and lactam-type, among others. In general, the new coffee diterpenoids showed potential as antidiabetic, antidiapogenic, α-glucosidade inhibition, antiplatelet activity, and Cav.3 inhibitors agents, revealing the possibilities for the design, discovery, and development of new drugs.

Bioaccessibility of Cafestol from Coffee Brew: A Metabolic Study Employing an In Vitro Digestion Model and LC-HRMS

Cafestol is an ent-kaurene skeleton diterpene that is present in coffee beans and brews. Although several biological activities have been described in the literature for cafestol, such as hypercholesterolemic, anti-inflammatory, anticerous, and antidiabetic effects, its metabolism within the human body remains poorly understood. Therefore, this study aimed to quantify cafestol in boiled coffee brew, assess its bioaccessibility using a static in vitro digestion model, and investigate the metabolites formed during the digestion process using liquid chromatography coupled to high-resolution mass spectrometry. Cafestol content in the boiled coffee brew ranged from 127.47 to 132.65 mg L-1. The bioaccessibility of cafestol from boiled coffee brew using the in vitro digestion model was 93.65%; additionally, in the intestinal phase, cafestol was mainly found in its alcohol form. Additionally, a novel carboxylic acid derivative metabolite from cafestol with m/z 331.1909 [M + H]+ formed in the oral digestion phase is proposed. This metabolite was also detected in other digestion phases. Thus, this is the first article to investigate the metabolism of cafestol during digestion using an in vitro digestion model. The results indicate that cafestol is bioaccessible, is available to absorption, in its alcohol form, and suffers an oxidation reaction during the oral phase of digestion.

Comprehensive Composition of Flavor Precursors in Kopi Luwak and Jacu Exotic Green Bioprocessed Coffees

Exotic coffees may be defined as extravagant and unique coffees, primarily due to their production mode, including unusual bioprocessing or fermentation conditions associated with superior sensorial characteristics. The aim of the present study was to investigate the influence of bioprocessing and of growing conditions on flavor precursors of Jacu and Kopi Luwak exotic green coffees, respectively. Moreover, this is the first study to perform a detailed chemical analysis of these exotic coffees. Thirteen green Coffea arabica bean samples were obtained, five from Espírito Santo state, Brazil, and eight Kopi Luwak from different regions of Indonesia. Samples were analyzed regarding their proximate composition, chlorogenic acids (CGA), sucrose, alkaloids, triacylglycerols (TAG), diacylglycerols, free fatty acids, sterols, diterpenes and tocopherols. Scanning electron micrography confirmed bioprocessing of Jacu and Kopi Luwak coffee samples. Bioprocessing by the Jacu bird caused reductions of 69 and 28% in caffeine and CGA contents, respectively. The TAG profile of Jacu coffee was modified. TAG containing two saturated fatty acids were preferably hydrolyzed in detriment to those containing two unsaturated fatty acids. Other coffee components were not affected by the bird's digestion of the beans. Kopi Luwak coffee samples had a chemical composition in accordance with reported ranges for non-bioprocessed green C. arabica samples, except for caffeine (0.48 g/100 g) and CGA (5.09 g/100 g), which were found in low amounts. Crop year rather than location or post-harvest processing discriminated Kopi Luwak coffee samples, suggesting that weather conditions would be the most crucial aspect for their chemical composition, especially in terms of total lipids, ashes, total CGA, sucrose and proteins.