Abstract
CALIMERO aims at investigating the structural, nutritional and metabolic features of pasta prepared, using dif-ferent drying cycles, from whole meal semolina having different protein content. The focus will be placed on the digestome of pasta obtained using in vitro gastroduodenal model, including the evaluation of the role of raw material and processing on digestibility, intestinal absorption and inflammation, and on the gut microbio-ta. Given that pasta quality may be modulated by the drying step but increased drying temperature may impair protein digestion and/or affect nutritional properties, two drying cycles will be used in pasta-making. Pasta samples will undergo in vitro digestion by using a static method including brush border enzymes. Advanced proteomic/metabolomic approaches will be used to evaluate the breakdown of proteins and to inform about the presence of peptides with potential positive or detrimental effects on human health. The characterization of the products of digestion transmigrated through the Caco-2 cells will allow collecting additional knowledge about the bioavailability of resulting peptides and of other pasta components. Alongside, digested pasta sam-ples will be administered to Caco-2 cells to evaluate inflammatory effects. Potential modulation induced by digested pasta in the gut microbiota will be investigated by in vitro gut fermentation. CALIMERO stems from the paucity of reports on protein digestibility in pasta, in contrast with those on starch digestion, and the in-creasing frequency of gluten sensitivity in the population. Given the strong relationship between product structure (defined by composition and processing) and nutritional functionality, and the modest number of studies on this topic, this proposal implies a holistic approach to the various aspects of these issues, combin-ing the expertise in food technology, proteomics, metabolomics, protein chemistry/biochemistry, nutrition and microbiology that are all present in the Consortium. Notably, the topics addressed by CALIMERO are of great relevance also to the general public and would help in shedding some light on the molecular aspects of a debate in which sides are often taken in the absence of scientific support.
Project details
Unibo Team Leader: Alessandra Bordoni
Unibo involved Department/s:
Dipartimento di Scienze e Tecnologie Agro-Alimentari
Coordinator:
Università degli Studi di MILANO(Italy)
Total Unibo Contribution: Euro (EUR) 49.615,00
Project Duration in months: 24
Start Date:
12/10/2023
End Date:
28/02/2026
