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1.
J Agric Food Chem ; 72(42): 23355-23365, 2024 Oct 23.
Artigo em Inglês | MEDLINE | ID: mdl-39380438

RESUMO

Cultured meat (CM) has been hailed as a sustainable future meat production technology that requires scaffolds to support cell growth. Plant proteins are the most promising raw materials for edible scaffolds but remain underutilized. In this study, kafirin, an abundant, readily available, and nonallergenic prolamin extracted from red sorghum, was explored to fabricate 3D porous sponge-like scaffolds via a simple template-leaching method. The scaffolds featured fully interconnected pores with a high porosity of approximately 84% and mechanical properties of 1.0-1.9 kPa. Porcine skeletal muscle cells (PSCs) and adipose-derived stem cells (ADSCs) could adhere, proliferate, and differentiate on protein scaffolds. Thereafter, a hybrid CM was produced by culturing porcine ADSCs on kafirin scaffolds for 12 days, integrating plant protein-based and cell-based alternatives. The anthocyanins found in red sorghum contributed to the hybrid CM with meat-like color and antioxidative benefits. Moreover, the hybrid CM prototype demonstrated promising potential in providing higher protein content (22.9%) and unique mouthfeel and appearance characteristics, highlighting the viability of sorghum prolamin in promoting CM production.


Assuntos
Prolaminas , Sorghum , Alicerces Teciduais , Sorghum/química , Animais , Suínos , Alicerces Teciduais/química , Prolaminas/química , Humanos , Proteínas de Plantas/química , Proteínas de Plantas/metabolismo , Músculo Esquelético/química , Células-Tronco/citologia , Tecido Adiposo/citologia , Paladar , Antocianinas/química , Carne in vitro
2.
J Agric Food Chem ; 72(20): 11587-11596, 2024 May 22.
Artigo em Inglês | MEDLINE | ID: mdl-38728660

RESUMO

Cellular agriculture holds hope for a sustainable alternative to conventional meat, yet multiple technical challenges remain. These include the large-scale production of edible scaffolds and culturing methods for fat tissues, which are key to meat texture, flavor, and nutritional values. Herein. we disclose our method in the facile fabrication of sponge-like plant protein scaffolds by applying commercial sugar cubes as highly permeable templates. The prepared secalin scaffolds feature a high porosity of 85-90%, fully interconnected pores, and high water stability. The mechanical properties of scaffolds could be tuned by varying sugar-to-protein weight ratio and post-water annealing treatment. Moreover, murine preadipocytes (3T3-L1) and porcine adipose-derived stem cells (ADSCs) readily infiltrate, adhere, proliferate, and differentiate on the secalin scaffolds to develop a fat tissue morphology. A cultured fat tissue was produced by culturing porcine ADSCs for 12 days, which remarkably resembles conventional porcine subcutaneous adipose tissue in appearance, texture, flavor, and fatty acid profiles. The research demonstrates the great potential of sponge-like secalin scaffolds for cultured fat tissue production.


Assuntos
Adipócitos , Tecido Adiposo , Secale , Alicerces Teciduais , Animais , Alicerces Teciduais/química , Suínos , Camundongos , Porosidade , Tecido Adiposo/citologia , Adipócitos/citologia , Adipócitos/metabolismo , Secale/química , Engenharia Tecidual , Células-Tronco/citologia , Diferenciação Celular , Células 3T3-L1 , Proliferação de Células
3.
Mol Nutr Food Res ; 67(10): e2200633, 2023 05.
Artigo em Inglês | MEDLINE | ID: mdl-36946468

RESUMO

SCOPE: Holothuria leucospilota polysaccharides (HLP) are bioactive polysaccharides with immunomodulatory effects. This study aims to investigate the impact of HLP on dextran sodium sulfate (DSS)-induced colitis in rats and further investigate the complex interactions between changes in intestinal microbiota, cometabolites, and intestinal inflammation under HLP intervention. METHODS AND RESULTS: The ulcerative colitis (UC) model of Sprague Dawley (SD) rats is established by a normal diet with 3%DSS. The effects of HLP on UC are studied by gavage of different doses of HLP for 2 weeks. The results show that HLP alleviate the inflammation of UC and reduce histological damage and secretion of tumor necrosis factor-α (TNF-α), IL-6, IL-1ß, and IL-10. After HLP treatment, the intestinal flora of UC rats is regulated, and the flora diversity is restored. Fecal metabolomics analysis reveal the modulatory effects of HLP on amino acid metabolism, antimicrobial peptide anabolism, and energy metabolism in rats with colitis. Correlation analysis of microbial and intestinal metabolites reveals the potential mechanism of HLP affecting colitis. CONCLUSION: HLP repair the intestinal compartment's metabolic disorder by regulating intestinal flora's structure and alleviating colonic mucosal injury and inflammation in colitis rats.


Assuntos
Colite Ulcerativa , Colite , Microbioma Gastrointestinal , Holothuria , Ratos , Animais , Camundongos , Colite Ulcerativa/induzido quimicamente , Colite Ulcerativa/tratamento farmacológico , Ratos Sprague-Dawley , Colite/tratamento farmacológico , Colo/metabolismo , Inflamação/metabolismo , Polissacarídeos/metabolismo , Sulfato de Dextrana/toxicidade , Modelos Animais de Doenças , Camundongos Endogâmicos C57BL
4.
Front Nutr ; 9: 1035619, 2022.
Artigo em Inglês | MEDLINE | ID: mdl-36407513

RESUMO

Polysaccharides show protective effects on intestinal barrier function due to their effectiveness in mitigating oxidative damage, inflammation and probiotic effects. Little has been known about the effects of polysaccharides from Artocarpus heterophyllus Lam. pulp (jackfruit, JFP-Ps) on intestinal barrier function. This study aimed to investigate the effects of JFP-Ps on intestinal barrier function in high fat diet-induced obese rats. H&E staining and biochemical analysis were performed to measure the pathological and inflammatory state of the intestine as well as oxidative damage. Expression of the genes and proteins associated with intestinal health and inflammation were analyzed by RT-qPCR and western blots. Results showed that JFP-Ps promoted bowel movements and modified intestinal physiochemical environment by lowering fecal pH and increasing fecal water content. JFP-Ps also alleviated oxidative damage of the colon, relieved intestinal colonic inflammation, and regulated blood glucose transport in the small intestine. In addition, JFP-Ps modified intestinal physiological status through repairing intestinal mucosal damage and increasing the thickness of the mucus layer. Furthermore, JFP-Ps downregulated the inflammatory genes (TNF-α, IL-6) and up-regulated the free fatty acid receptors (GPR41 and GPR43) and tight junction protein (occludin). These results revealed that JFP-Ps showed a protective effect on intestinal function through enhancing the biological, mucosal, immune and mechanical barrier functions of the intestine, and activating SCFAs-GPR41/GPR43 related signaling pathways. JFP-Ps may be used as a promising phytochemical to improve human intestinal health.

5.
Food Chem ; 364: 130434, 2021 Dec 01.
Artigo em Inglês | MEDLINE | ID: mdl-34182368

RESUMO

This study aimed to investigate the effects of polysaccharide from Artocarpus heterophyllus Lam. pulp (JFP-Ps) on gut microbiota composition and short-chain fatty acids production in mice. The microbial communities of V3 and V4 region 16S rRNA gene was amplified by PCR, then sequenced on an Illumina MiSeq PE250 platform and analyzed by multivariate statistical methods. The concentrations of short-chain fatty acids (SCFAs) were measured using gas chromatography (GC) equipped with a flame ionization detector (FID). The results showed that JFP-Ps significantly affected the levels of intestinal bacteria, including Bacteroidetes, Firmicutes, Proteobacteria, Cyanobacteria, Actinobacteria, Tenericutes, Deferribacteres and TM7. The concentrations of acetic acid, propionic acid, n-butyric acid and total SCFAs in mouse feces were significantly increased by treatment with JFP-Ps for 2 weeks. These results indicate that JFP-Ps is beneficial to the gut health and can be developed as a functional ingredient in relation to gut health.


Assuntos
Artocarpus , Microbioma Gastrointestinal , Animais , Ácidos Graxos Voláteis , Fezes , Camundongos , Polissacarídeos , RNA Ribossômico 16S
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