Ciencias Exactas y Ciencias de la Salud
Permanent URI for this collectionhttps://hdl.handle.net/11285/551039
Pertenecen a esta colección Tesis y Trabajos de grado de las Maestrías correspondientes a las Escuelas de Ingeniería y Ciencias así como a Medicina y Ciencias de la Salud.
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- Evaluation of the biological activity of wounding stress-treated carrots on the development of obesity and associated metabolic disorders(Instituto Tecnológico y de Estudios Superiores de Monterrey, 2024-12-11) Castorena Ramírez, Mariana Denise; Jacobo Velázquez, Daniel Alberto; emimmayorquin; Chuck Hernández, Cristina Elizabeth; Licona Cassani, Cuauhtémoc; School of Engineering and Sciences; Campus Monterrey; Rabadán Chávez, Griselda MericiaAdipose tissue is a complex multicellular organ that serves as both an energy reservoir and an endocrine organ responsible for maintaining energy homeostasis through a set of integrated endocrine and metabolic responses. By storing and mobilizing energy as needed, adipose tissue supports metabolic balance. Similarly, the gut microbiota—a complex intestinal microbial ecosystem—plays a critical role in metabolic health, impacting obesity through lipid metabolism, energy extraction, and inflammation modulation. Postharvest wounding stress, a type of abiotic stress induced by cutting followed by a storage period, has been shown to significantly increase the total phenolic content in carrots, particularly chlorogenic acid (CHA). Given the antioxidant, anti-inflammatory, and anti-obesogenic effects of this dietary phytochemical, this study aimed to evaluate the effect of consuming carrots treated with wounding stress on diet-induced obesity (DIO) and associated metabolic disorders in rats. Male Wistar rats were fed a standard (SD) or hypercaloric diet (HD) supplemented with wounding stress-treated carrots (wsC) or nonstressed carrots (nsC) for 8 weeks. In HD-fed rats, daily consumption of 5 g of wsC (HDwsC) led to a significant decrease in body weight gain (18%) and total white adipose tissue (WAT) accumulation (9.7%) without changes in food or energy intake compared to the HD group. HD-wsC supplementation also improved fat mass distribution, with a significant increase in subcutaneous WAT (20%) and a decrease in visceral WAT (17.3%). These shifts in adipose tissue were consistent with improvements in lipid profiles, as the HD-wsC group showed increased HDL-c levels (40%) and reduced triglycerides (39%), total cholesterol (35%), LDL-c (8.3%), and VLDL-c (38.6%). Additionally, HD-wsC improved glucose metabolism, enhancing oral glucose tolerance and insulin sensitivity, as reflected in lowered AUC values (4.3% and 5.2%, respectively, vs. HD group). Microbiota analysis further revealed that HD-wsC partially alleviated gut dysbiosis, preserving microbial diversity, increasing beneficial bacteria like Butyricoccaceae, and reducing pathogenic bacteria such as Rickettsiaceae. These findings suggest that wounding stress treated-carrots may offer an effective dietary intervention for obesity management, acting through modulation of adipose tissue function, lipid profiles, and gut microbiota composition.
- Combined effect of wounding stress and chitosan treatment on the accumulation of antioxidant phenolic compounds in carrot(Instituto Tecnológico y de Estudios Superiores de Monterrey, 2020-06-12) Berumen Guerrero, Luis; Jacobo Velázquez, Daniel Alberto; emipsanchez/tolmquevedo; Benavides Lozano, Jorge Alejandro; Senés Guerrero, Carolina; School of Engineering and Sciences; Campus MonterreyThe application of postharvest treatments to fruits and vegetables that improves their health-promoting properties, prior to their processing into value-added foods, is an emerging topic of research. Antioxidant phenolic compounds are bioactive secondary metabolites that can be increased by the application of postharvest treatments in horticultural crops. Chlorogenic acid is the main phenolic compound in carrots, and it possesses potent activity against the metabolic syndrome. Wounding stress has been reported as an effective postharvest treatment to increase chlorogenic acid content in carrots. Likewise, chitosan is another elicitor that induces the secondary metabolism of plants. However, the combined effect of wounding stress and chitosan treatment on the accumulation of phenolic compounds has not been previously reported. In the present study, the effect of postharvest wounding stress applied alone and combined with chitosan, over total and individual phenolic compounds in carrot was investigated. Carrots were wounded to obtain pie-cuts and shreds, and the tissue was further sprayed with a chitosan suspension (0.5% w/v). Whole carrots were used as control. After storage, wounding stress induced a significant increase in total phenolics by 278.9% and 1516.9% for carrot pie-cuts and shreds, respectively, as compared with the control before storage (further referred as CBS), whereas the whole tissue did not show an increase. When chitosan was applied in the tissue the wound-induced accumulation of phenolics was further enhanced, showing increases of 917.4% and 2332.7% for pie-cuts and shreds, respectively, as compared with CBS. Interestingly, after storage whole carrots treated with chitosan showed a significant increase (119.5%) in the total phenolic content as compared with CBS. The major phenolic compounds identified in non-stressed carrot tissue (CBS) was chlorogenic acid (220.6 mg/kg), followed by p-coumaric acid derivative (112.9 mg/kg), p-coumaric acid (99.5 mg/kg), gallic acid (71.8 mg/kg) and protocateuic acid (39.3 mg/kg). After storage, the application of chitosan induced the accumulation of isocoumarin in whole carrots (27.9 mg/kg), which was not detected in CBS. An additional phenolic compound that showed accumulation due to chitosan application in whole carrots were chlorogenic acid, and protocatechuic acid, showing increases of 284.6% and 9.95%, respectively, as compared with CBS. As observed for total phenolics, the accumulation of certain individual phenolics increased with the wounding intensity applied. For carrot pies non-treated with chitosan, phenolics that showed increases in concentration after storage were the chlorogenic acid (670.0%), p-coumaric acid derivative (29.43%). Furthermore, biosynthesis of isocoumarin was also detected in carrot pies (45.9 mg/kg) due to wounding stress. Likewise, other compounds such as p-coumaric acid and protocatechuic acid did not show significant increase after storage of carrot pies, whereas the concentration of gallic acid decreased by 50.1%. On the other hand, shredded carrots non-treated with chitosan, showed higher accumulation of most individual phenolics as compared with carrot pies. In this context, shreds showed increases of chlorogenic acid (3,470.0%), p-coumaric acid derivative (200.8%), and p-coumaric acid (17.2%) as compared with CBS. Likewise, shredded carrots showed a high accumulation of isocoumarin after storage (377.5 mg/kg), which was 723.1% higher than isocumarin content in stored carrot pies. When the two stresses were combined (wounding + chitosan) a synergistic effect on the accumulation of certain phenolic compounds were obtained. For instance, after storage chlorogenic acid increased by 1991.3% and 5069.1% in chitosan treated carrot pies and shreds, respectively; whereas p-coumaric acid derivative increased by 173.7% and 385.6% in chitosan treated carrot pies and shreds, respectively. Similarly, isocoumarin, which was not detected in CBS, showed a high accumulation after storage of chitosan treated carrot pies (413 mg/kg) and shreds (1074.8 mg/kg). Results presented herein demonstrated that the combination of wounding stress and chitosan can be used as an effective strategy to increase the content of antioxidant phenolic compounds in carrots. The stressed carrot tissue treated can be used as raw material to obtain value-added food products or for the extraction and purification of antioxidant phenolic compounds with application in the food and dietary supplement industries.
