Extrusion Improves the Antihypertensive Potential of a Kabuli Chickpea (<i>Cicer arietinum</i> L.) Protein Hydrolysate
Jeanett Chávez-Ontiveros,
Cuauhtémoc Reyes-Moreno,
Giovanni Isaí Ramírez-Torres,
Oscar Gerardo Figueroa-Salcido,
Jesús Gilberto Arámburo-Gálvez,
Alvaro Montoya-Rodríguez,
Noé Ontiveros,
Edith Oliva Cuevas-Rodríguez
Affiliations
Jeanett Chávez-Ontiveros
Integral Postgraduate Program in Biotechnology, Faculty of Chemical and Biological Sciences, Autonomous University of Sinaloa, Ciudad Universitaria, Culiacan 80010, Mexico
Cuauhtémoc Reyes-Moreno
Integral Postgraduate Program in Biotechnology, Faculty of Chemical and Biological Sciences, Autonomous University of Sinaloa, Ciudad Universitaria, Culiacan 80010, Mexico
Giovanni Isaí Ramírez-Torres
Faculty of Physical Education and Sports, Autonomous University of Sinaloa, Culiacan 80013, Mexico
Oscar Gerardo Figueroa-Salcido
Integral Postgraduate Program in Biotechnology, Faculty of Chemical and Biological Sciences, Autonomous University of Sinaloa, Ciudad Universitaria, Culiacan 80010, Mexico
Jesús Gilberto Arámburo-Gálvez
Nutrition Sciences Postgraduate Program, Faculty of Nutrition Sciences, Autonomous University of Sinaloa, Culiacan 80019, Mexico
Alvaro Montoya-Rodríguez
Integral Postgraduate Program in Biotechnology, Faculty of Chemical and Biological Sciences, Autonomous University of Sinaloa, Ciudad Universitaria, Culiacan 80010, Mexico
Noé Ontiveros
Clinical and Research Laboratory (LACIUS, URS), Department of Chemical, Biological, and Agricultural Sciences (DC-QB), Division of Sciences and Engineering, University of Sonora, Navojoa 85880, Mexico
Edith Oliva Cuevas-Rodríguez
Integral Postgraduate Program in Biotechnology, Faculty of Chemical and Biological Sciences, Autonomous University of Sinaloa, Ciudad Universitaria, Culiacan 80010, Mexico
Chickpea hydrolysates could have antihypertensive potential, but there are no evaluations in vivo. Thus, the antihypertensive potential of a chickpea protein hydrolysate obtained before and after extrusion (a process that modifies protein digestibility) was evaluated. Protein precipitates were obtained from extruded and unextruded chickpea flours by isoelectric precipitation and hydrolyzed (α-amylase/pepsin/pancreatin). Chemical composition was determined (standard methods). ACE-I inhibition assays were carried out using a colorimetric test. For antihypertensive effect evaluations, spontaneously hypertensive rats (n = 8) received the treatments intragastrically (extruded or unextruded hydrolysate (1.2 g/kg), captopril (25 mg/kg), or water only). Fat, ash, and carbohydrate contents were lower in extruded chickpea flour (p p p > 0.05). All treatments lowered the blood pressure (p p p > 0.05). The results suggest that protein extrusion can be used to generate protein hydrolysates with improved health benefits. The findings have implications for the design and production of functional foods that could help to prevent hypertension or serve as an adjunct in its treatment.
