Is Chickpea a Potential Substitute for Soybean? Phenolic Bioactives and Potential Health Benefits.
Gabriela Boscariol RaseraBruno Trevenzoli FaveroMaressa Caldeira MorzelleMarcelo FranchinEmilio Alvarez-ParrillaLaura Alejandra De la RosaMarina Vilar GeraldiMário Roberto MarósticaFereidoon ShahidiAndrés R SchwemberPublished in: International journal of molecular sciences (2019)
Legume seeds are rich sources of protein, fiber, and minerals. In addition, their phenolic compounds as secondary metabolites render health benefits beyond basic nutrition. Lowering apolipoprotein B secretion from HepG2 cells and decreasing the level of low-density lipoprotein (LDL)-cholesterol oxidation are mechanisms related to the prevention of cardiovascular diseases (CVD). Likewise, low-level chronic inflammation and related disorders of the immune system are clinical predictors of cardiovascular pathology. Furthermore, DNA-damage signaling and repair are crucial pathways to the etiology of human cancers. Along CVD and cancer, the prevalence of obesity and diabetes is constantly increasing. Screening the ability of polyphenols in inactivating digestive enzymes is a good option in pre-clinical studies. In addition, in vivo studies support the role of polyphenols in the prevention and/or management of diabetes and obesity. Soybean, a well-recognized source of phenolic isoflavones, exerts health benefits by decreasing oxidative stress and inflammation related to the above-mentioned chronic ailments. Similar to soybeans, chickpeas are good sources of nutrients and phenolic compounds, especially isoflavones. This review summarizes the potential of chickpea as a substitute for soybean in terms of health beneficial outcomes. Therefore, this contribution may guide the industry in manufacturing functional foods and/or ingredients by using an undervalued feedstock.
Keyphrases
- oxidative stress
- public health
- dna damage
- healthcare
- low density lipoprotein
- type diabetes
- cardiovascular disease
- mental health
- human health
- health information
- metabolic syndrome
- insulin resistance
- endothelial cells
- drinking water
- health promotion
- ms ms
- body mass index
- ischemia reperfusion injury
- nitric oxide
- high fat diet induced
- dna repair
- heavy metals
- drug induced
- weight gain
- signaling pathway
- young adults
- adipose tissue
- coronary artery disease
- amino acid
- endoplasmic reticulum stress
- cardiovascular events
- cardiovascular risk factors
- childhood cancer