Your search keyword '"CHOLIC acid"' showing total 8,398 results

51. Synthesis of Some New 1,3,4-Thiadiazole Derivatives Derived from Cholic Acid and Evaluation of their Biological Activity.

Author

Mahmood Al-araj, Intisar Q., Saeed, Rana A., Abdul-Raheem, Linda R., and Ahmed, Amena A.

Subjects

THIADIAZOLES, HETEROCYCLIC compounds synthesis, CHEMICAL derivatives, CHOLIC acid, BIOACTIVE compounds

Published

2024

52. Antagonism Between Gut Ruminococcus gnavus and Akkermansia muciniphila Modulates the Progression of Chronic Hepatitis BSummary

Author

Huey-Huey Chua, Ya-Hui Chen, Li-Ling Wu, Hung-Chih Yang, Chia-Ray Lin, Huey-Ling Chen, Jia-Feng Wu, Mei-Hwei Chang, Pei-Jer Chen, and Yen-Hsuan Ni

Subjects

Bile Salt Hydrolase, Cholestyramine, Cholic Acid, Immune Active, Diseases of the digestive system. Gastroenterology, RC799-869

Abstract

Background & Aims: A long immune-tolerant (IT) phase lasting for decades and delayed HBeAg seroconversion (HBe-SC) in patients with chronic hepatitis B (CHB) increase the risk of liver diseases. Early entry into the immune-active (IA) phase and HBe-SC confers a favorable clinical outcome with an unknown mechanism. We aimed to identify factor(s) triggering IA entry and HBe-SC in the natural history of CHB. Methods: To study the relevance of gut microbiota evolution in the risk of CHB activity, fecal samples were collected from CHB patients (n = 102) in different disease phases. A hepatitis B virus (HBV)-hydrodynamic injection (HDI) mouse model was therefore established in several mouse strains and germ-free mice, and multiplatform metabolomic and bacteriologic assays were performed. Results: Ruminococcus gnavus was the most abundant species in CHB patients in the IT phase, whereas Akkermansia muciniphila was predominantly enriched in IA patients and associated with alanine aminotransferase flares, HBeAg loss, and early HBe-SC. HBV-HDI mouse models recapitulated this human finding. Increased cholesterol-to-bile acids (BAs) metabolism was found in IT patients because R gnavus encodes bile salt hydrolase to deconjugate primary BAs and augment BAs total pool for facilitating HBV persistence and prolonging the IT course. A muciniphila counteracted this activity through the direct removal of cholesterol. The secretome metabolites of A muciniphila, which contained small molecules structurally similar to apigenin, lovastatin, ribavirin, etc., inhibited the growth and the function of R gnavus to allow HBV elimination. Conclusions: R gnavus and A muciniphila play opposite roles in HBV infection. A muciniphila metabolites, which benefit the elimination of HBV, may contribute to future anti-HBV strategies.

Published

2024

53. Importance of bile reflux to the esophagus in reflux esophagitis and the meaning of establishing a new endoscopy EP‐0002 system to visualize bilirubin.

Author

Sugimoto, Mitsushige, Murata, Masaki, and Kawai, Takashi

Subjects

*BARRETT'S esophagus, *NON-erosive reflux disease, *DEOXYCHOLIC acid, *CHOLIC acid, *BILE acids, *CELL transformation, *DNA damage, *GALLBLADDER, *FARNESOID X receptor

Abstract

This article discusses the importance of bile reflux to the esophagus in reflux esophagitis and the development of a new endoscopy system, called EP-0002, to visualize bilirubin. Bile acid reflux is a common issue among patients with gastroesophageal reflux disease (GERD) and can lead to esophageal mucosal damage and inflammation. The EP-0002 system, which uses narrow-band lighting at wavelengths of 450 and 473 nm, has shown promising results in detecting bilirubin and assessing bile acid status in the gastrointestinal tract. This new system could improve the diagnosis and treatment of GERD patients with bile acid reflux. However, further research is needed to fully understand the clinical implications and effectiveness of this system. [Extracted from the article]

Published

2024

54. Cholic acid-mediated targeting of mRNA-LNPs improve the mRNA delivery to Caco-2 cells

Author

Shinkai, Toma, Ogawa, Koki, Tagami, Tatsuaki, and Ozeki, Tetsuya

Published

2024

55. Profiling of endogenous metabolites and changes in intestinal microbiota distribution after GEN-001 (Lactococcus lactis) administration.

Author

Min-Gul Kim, Suin Kim, Ji-Young Jeon, Seol Ju Moon, Yong-Geun Kwak, Joo Young Na, SeungHwan Lee, Kyung-Mi Park, Hyo-Jin Kim, Sang-Min Lee, Seo-Yeon Choi, and Kwang-Hee Shin

Subjects

*LACTOCOCCUS lactis, *MICROBIAL metabolites, *CHOLIC acid, *DEOXYCHOLIC acid, *METABOLITES, *BLOOD testing

Abstract

This study aimed to identify metabolic biomarkers and investigate changes in intestinal microbiota in the feces of healthy participants following administration of Lactococcus lactis GEN-001. GEN-001 is a single-strain L. lactis strain isolated from the gut of a healthy human volunteer. The study was conducted as a parallel, randomized, phase 1, open design trial. Twenty healthy Korean males were divided into five groups according to the GEN-001 dosage and dietary control. Groups A, B, C, and D1 received 1, 3, 6, and 9 GEN-001 capsules (1 × 1011 colony forming units), respectively, without dietary adjustment, whereas group D2 received 9 GEN-001 capsules with dietary adjustment. All groups received a single dose. Fecal samples were collected 2 days before GEN-001 administration to 7 days after for untargeted metabolomics and gut microbial metagenomic analyses; blood samples were collected simultaneously for immunogenicity analysis. Levels of phenylalanine, tyrosine, cholic acid, deoxycholic acid, and tryptophan were significantly increased at 5-6 days after GEN-001 administration when compared with predose levels. Compared with predose, the relative abundance (%) of Parabacteroides and Alistipes significantly decreased, whereas that of Lactobacillus and Lactococcus increased; Lactobacillus and tryptophan levels were negatively correlated. A single administration of GEN-001 shifted the gut microbiota in healthy volunteers to a more balanced state as evidenced by an increased abundance of beneficial bacteria, including Lactobacillus, and higher levels of the metabolites that have immunogenic properties. [ABSTRACT FROM AUTHOR]

Published

2024

56. Uremic Toxins and Inflammation: Metabolic Pathways Affected in Non-Dialysis-Dependent Stage 5 Chronic Kidney Disease.

Author

Peris-Fernández, María, Roca-Marugán, Marta, Amengual, Julià L., Balaguer-Timor, Ángel, Viejo-Boyano, Iris, Soldevila-Orient, Amparo, Devesa-Such, Ramon, Sánchez-Pérez, Pilar, and Hernández-Jaras, Julio

Subjects

CHRONIC kidney failure, CHOLIC acid, FATTY acid oxidation, CHEMICAL libraries, TOXINS

Abstract

Chronic kidney disease (CKD) affects approximately 12% of the global population, posing a significant health threat. Inflammation plays a crucial role in the uremic phenotype of non-dialysis-dependent (NDD) stage 5 CKD, contributing to elevated cardiovascular and overall mortality in affected individuals. This study aimed to explore novel metabolic pathways in this population using semi-targeted metabolomics, which allowed us to quantify numerous metabolites with known identities before data acquisition through an in-house polar compound library. In a prospective observational design with 50 patients, blood samples collected before the initial hemodialysis session underwent liquid chromatography and high-resolution mass spectrometer analysis. Univariate (Mann–Whitney test) and multivariate (logistic regression with LASSO regularization) methods identified metabolomic variables associated with inflammation. Notably, adenosine-5′-phosphosulfate (APS), dimethylglycine, pyruvate, lactate, and 2-ketobutyric acid exhibited significant differences in the presence of inflammation. Cholic acid, homogentisic acid, and 2-phenylpropionic acid displayed opposing patterns. Multivariate analysis indicated increased inflammation risk with certain metabolites (N-Butyrylglycine, dimethylglycine, 2-Oxoisopentanoic acid, and pyruvate), while others (homogentisic acid, 2-Phenylpropionic acid, and 2-Methylglutaric acid) suggested decreased probability. These findings unveil potential inflammation-associated biomarkers related to defective mitochondrial fatty acid beta oxidation and branched-chain amino acid breakdown in NDD stage 5 CKD, shedding light on cellular energy production and offering insights for further clinical validation. [ABSTRACT FROM AUTHOR]

Published

2024

57. Self-assembled PHEA-based block copolymers for the synthesis of gold nanoparticles.

Author

Hermosillo-Ochoa, Eduardo, Cortez-Lemus, Norma A., and Reynoso-Soto, Edgar A.

Subjects

*GOLD nanoparticles, *BLOCK copolymers, *CHOLIC acid, *CONJUGATED polymers, *HYDROXYL group, *COPOLYMERS, *POLYMERS

Abstract

In this work, cholesteryl chloroformate (Chol) and cholic acid (CA) were conjugated into six-arm star-shaped poly(2-hydroxyethyl acrylate) (PHEA) polymers. These molecules were randomly attached to the hydroxyl groups of PHEA. The first block of PHEA contains around 2% of cholesterol and 13% of cholic acid. The resulting star (PHEA-co-PChol-co-PCA)6 copolymers were then extended by further addition of HEA to form a second block. The copolymers self-assembled in an aqueous solution (DH between 10–14 nm, by DLS). Next, these small aggregates were used to prepare in situ AuNPs without an additional reducing agent. The metallic nanoparticles were obtained in solution for four to six hours at 70 °C. The formation of AuNPs was only observed when the second block was long enough, between 120 to 180 repetitive units of HEA per arm. FE-SEM images show spherical nanoparticles, triangles, and pentagonal/hexagonal shapes. Only spherical nanoparticles were obtained by increasing the polymer concentration. The gold nanoparticles were obtained and kept stable from a polymer concentration of 0.5 g L−1. Interestingly, with the increase in polymer concentration, the intensity of the absorption band of the AuNPs decreases noticeably. Furthermore, the reducing capacity of PHEA homopolymers was demonstrated in obtaining AuNPs. The development of nanosystems with small size and improved stability makes them promising for future research. [ABSTRACT FROM AUTHOR]

Published

2024

58. Influence of the bile acid/microbiota axis in ileal surgery: a systematic review.

Author

Senanayake, Tharindu, Makanyengo, Samwel, Hoedt, Emily C., Goggins, Bridie, Smith, Stephen R., and Keely, Simon

Subjects

*BILE acids, *FECAL microbiota transplantation, *CHOLIC acid, *INFLAMMATORY bowel diseases, *DEOXYCHOLIC acid, *SHORT bowel syndrome

Abstract

Aim: The gastrointestinal bile acid (BA)/microbiota axis has emerged as a potential mediator of health and disease, particularly in relation to pathologies such as inflammatory bowel disease (IBD) and colorectal cancer. Whilst it presents an exciting new avenue for therapies, it has not yet been characterized in surgical resection of the ileum, where BA reabsorption occurs. The identification of BA/microbiota signatures may provide future therapies with perioperative personalized medicine. In this work we conduct a systematic review with the aim of investigating the microbiome and BA changes that are associated with resection of the ileum. Method: The databases included were MEDLINE, EMBASE, Web of Science and Cochrane libraries. The outcomes of interest were faecal microbiome and BA signatures after ileal resection. Results: Of the initial 3106 articles, three studies met the inclusion/exclusion criteria for data extraction. A total of 257 patients (46% surgery, 54% nonsurgery controls) were included in the three studies. Two studies included patients with short bowel syndrome and the other included patients with IBD. Large‐scale microbiota changes were reported. In general, alpha diversity had decreased amongst patients with ileal surgery. Phylum‐level changes included decreased Bacteroidetes and increased Proteobacteria and Fusobacteria in patients with an intestinal resection. Surgery was associated with increased total faecal BAs, cholic acid and chenodeoxycholic acid. There were decreases in deoxycholic acid and glycine and taurine conjugated bile salts. Integrated BA and microbiota data identified correlations with several bacterial families and BA. Conclusion: The BA/microbiota axis is still a novel area with minimal observational data in surgery. Further mechanistic research is necessary to further explore this and identify its role in improving perioperative outcomes. [ABSTRACT FROM AUTHOR]

Published

2024

59. Longitudinal characterization of the metabolome of dairy cows transitioning from one lactation to the next: Investigations in blood serum.

Author

Ghaffari, M.H., Daniel, J.B., Sadri, H., Schuchardt, S., Martín-Tereso, J., and Sauerwein, H.

Subjects

*DAIRY cattle, *LACTATION in cattle, *PARTURITION, *LACTATION, *KREBS cycle, *CHOLIC acid, *PRINCIPAL components analysis

Abstract

The objective of this study was to characterize changes in the serum metabolome and various indicators of oxidative balance in dairy cows starting 2 wk before dry-off and continuing until wk 16 of lactation. Twelve Holstein dairy cows (body weight 745 ± 71 kg, body condition score 3.43 ± 0.66; mean ± SD) were housed in a tiestall barn from 10 wk before to 16 wk after parturition. Cows were dried off 6 wk before the expected calving date (mean dry period length = 42 d). From 8 wk before calving to 16 wk after calving, blood samples were taken weekly to study redox metabolism by determining antioxidant capacity, measured as the ferric-reducing ability of plasma, reactive oxidative metabolites, oxidative stress index, oxidative damage of lipids, measured as thiobarbituric acid reactive substances, and glutathione peroxidase activity. According to these results, dairy cows had the lowest serum antioxidant capacity and greater levels of oxidative stress during the dry-off period and the early postpartum period. For metabolomics, a subset of serum samples including wk −7 (before dry-off), −5 (after dry-off), −1, 1, 5, 10, and 15 relative to calving were used. A targeted metabolomics approach was performed using liquid chromatography and flow injection with electrospray ionization triple quadrupole mass spectrometry using the MxP Quant 500 kit (Biocrates Life Sciences AG). A total of 240 metabolites in serum were used in the final data analysis. Principal component analysis revealed a clear separation by days of sampling, indicating a remarkable shift in metabolic phenotype between the dry period and late and early lactation. Changes in many non-lipid metabolites associated with one-carbon metabolism, the tricarboxylic acid cycle, the urea cycle, and AA catabolism were observed in the study, with changes in AA serum concentrations likely related to factors such as energy and nitrogen balance, digestive efficiency, and changing diets. The study confirmed an extensive remodeling of the serum lipidome in peripartum dairy cows, highlighting the importance of changes in acylcarnitine (acylCN), phosphatidylcholines (PC), and triacylglycerols (TG), as they play a crucial role in lipid metabolism. Results showed that short-chain acylCN increased after dry-off and decreased thereafter, whereas lipid-derived acylCN increased around parturition, suggesting that more fatty acids could enter mitochondria. Phospholipids and sphingolipids in serum showed changes during lactation. In particular, concentrations of sphingomyelins, PC, and lysoPC decreased around calving but increased in mid- and late lactation. In contrast, concentrations of TG remained consistently low after parturition. The serum concentrations of bile acids fluctuated during the dry period and lactation, with glycocholic acid, cholic acid, glycodeoxycholic acid, and taurocholic acid showing the greatest concentrations. These changes are likely due to the interplay of diet, liver function, and the ability of the gut microbiota to convert primary to secondary bile acids. Overall, these descriptive results may aid in hypothesis generation and in the design and interpretation of future metabolite-based studies in dairy cows. Furthermore, they contribute to our understanding of the physiological ranges in serum metabolites relative to the lactation cycle of the dairy cow. [ABSTRACT FROM AUTHOR]

Published

2024

60. Investigation on the antipyretic mechanism of Chaiqin Qingning capsule for the treatment of fever based on network pharmacology, molecular docking, and in vitro experimental validation.

Author

Huang, Lianzhan, Chen, Zhengwei, Gao, Hongjin, Wang, Zhen, and Ding, Xuansheng

Subjects

*CYTOKINE receptors, *MOLECULAR docking, *FEVER, *CHINESE medicine, *CHENODEOXYCHOLIC acid, *CHOLIC acid

Abstract

Chaiqin Qingning Capsule (CQQNC), a traditional Chinese patent medicine, can effectively shorten the duration of fever and significantly improve fever symptoms. However, the mechanism of its antipyretic effect needs to be further elucidated. Therefore, we aimed to investigate the molecular mechanism of CQQNC in the treatment of fever. We used the network pharmacology method to analyze the mechanism of action of CQQNC in the treatment of fever and validated our study primarily by molecular docking. Finally, the predictive results were verified by IL‐1β‐induced bEnd.3 cells. The results showed that quercetin, kaempferol, cubebin, chenodeoxycholic acid, isorhamnetin, bilirubin, cholic acid, and baicalin were the major components of CQQNC against fever. A total of 381 common targets have been crossed by CQQNC for the treatment of fever. Furthermore, we found that CQQNC targets several deregulated genes in fever such as AKT1, COX2, AVP, cAMP, IL6, IL1B, TNF, mPGES1, and PI3K, biological functions such as endopeptidase, cytokine receptor binding, and phosphatase activity, and signaling pathways such as the PI3K‐Akt pathway and the AGE‐RAGE signaling pathway in diabetic complications. The docking study revealed that the core components of CQQNC both had high affinity for hub targets, especially the targets of COX‐2, cAMP, mPGES1, and PI3K proteins. To further investigate the mechanism of CQQNC, an Elisa assay and Western blot detection were performed as part of an in vitro study. Elisa's result showed that CQQNC can significantly decrease the expression levels of cPLA2, sPLA2, PGE2, cAMP, and 15‐PGDH after stimulating IL‐1β to bEnd.3 cells in a dose‐dependent manner (p <.01, p <.001, p <.0001). In addition, detection of the PGE2/ COX /cMAP pathway via immunoblotting showed that CQQNC can significantly downregulate the protein expression of COX‐1, COX‐2, EP3, cAMP, and mPGES1 in bEnd.3 (p <.0001, p <.001, p <.01). In conclusion, our study confirmed that the antipyretic mechanism of CQQNC affects the synthesis and secretion processes of PGE2 via the PGE2/ COX/cAMP pathway, providing insight into the antipyretic mechanism of CQQNC in clinical application. [ABSTRACT FROM AUTHOR]

Published

2024

61. Loss of SLC27A5 Activates Hepatic Stellate Cells and Promotes Liver Fibrosis via Unconjugated Cholic Acid.

Author

Wu, Kang, Liu, Yi, Xia, Jie, Liu, Jiale, Wang, Kai, Liang, Huijun, Xu, Fengli, Liu, Dina, Nie, Dan, Tang, Xin, Huang, Ailong, Chen, Chang, and Tang, Ni

Subjects

*HEPATIC fibrosis, *KUPFFER cells, *FARNESOID X receptor, *LIVER cells, *CHOLIC acid, *BILE acids

Abstract

Although the dysregulation of bile acid (BA) composition has been associated with fibrosis progression, its precise roles in liver fibrosis is poorly understood. This study demonstrates that solute carrier family 27 member 5 (SLC27A5), an enzyme involved in BAs metabolism, is substantially downregulated in the liver tissues of patients with cirrhosis and fibrosis mouse models. The downregulation of SLC27A5 depends on RUNX family transcription factor 2 (RUNX2), which serves as a transcriptional repressor. The findings reveal that experimental SLC27A5 knockout (Slc27a5−/−) mice display spontaneous liver fibrosis after 24 months. The loss of SLC27A5 aggravates liver fibrosis induced by carbon tetrachloride (CCI4) and thioacetamide (TAA). Mechanistically, SLC27A5 deficiency results in the accumulation of unconjugated BA, particularly cholic acid (CA), in the liver. This accumulation leads to the activation of hepatic stellate cells (HSCs) by upregulated expression of early growth response protein 3 (EGR3). The re‐expression of hepatic SLC27A5 by an adeno‐associated virus or the reduction of CA levels in the liver using A4250, an apical sodium‐dependent bile acid transporter (ASBT) inhibitor, ameliorates liver fibrosis in Slc27a5−/− mice. In conclusion, SLC27A5 deficiency in mice drives hepatic fibrosis through CA‐induced activation of HSCs, highlighting its significant implications for liver fibrosis treatment. [ABSTRACT FROM AUTHOR]

Published

2024

62. Differences in iron balance observed with dietary cholic acid supplementation and marginal iron deficiency in rats.

Author

Natsuki Kubota, Shota Hori, and Satoshi Ishizuka

Subjects

*IRON, *IRON supplements, *CHOLIC acid, *IRON deficiency, *TRANSFERRIN receptors, *IRON metabolism, *BILE acids

Abstract

We investigated whether a cholic acid (CA)-supplemented diet and marginal iron deficiency (MID) diet influence hepatic lipid accumulation and iron balance in rats for 2 weeks. The CA diet enhanced hepatic lipid accumulation and modulated iron metabolism such as enhancement of fecal iron excretion, reduction in iron absorption, and no alteration in plasma iron levels. The MID diet did not alter hepatic lipid concentrations with reduced iron concentration in the liver and plasma. In combination, influence of the CA supplementation on the hepatic iron concentration was opposite between iron-sufficient and MID conditions. In the liver, the CA diet enhanced lipocalin 2 expression, whereas the MID diet enhanced transferrin receptor 1 expression and reduced hepcidin expression. This study revealed an involvement of 12-hydroxylated bile acids in regulation of hepatic iron concentration under MID condition. [ABSTRACT FROM AUTHOR]

Published

2024

63. Sulfated bile acid is a host-derived ligand for MAIT cells.

Author

Ito, Emi, Inuki, Shinsuke, Izumi, Yoshihiro, Takahashi, Masatomo, Dambayashi, Yuki, Ciacchi, Lisa, Awad, Wael, Takeyama, Ami, Shibata, Kensuke, Mori, Shotaro, Mak, Jeffrey Y. W., Fairlie, David P., Bamba, Takeshi, Ishikawa, Eri, Nagae, Masamichi, Rossjohn, Jamie, and Yamasaki, Sho

Subjects

BILE acids, T cell receptors, CHOLIC acid, CELL physiology, BACTERIAL metabolites, VITAMIN B complex, DEOXYCHOLIC acid

Abstract

Mucosal-associated invariant T (MAIT) cells are innate-like T cells that recognize bacterial riboflavin–based metabolites as activating antigens. Although MAIT cells are found in tissues, it is unknown whether any host tissue–derived antigens exist. Here, we report that a sulfated bile acid, cholic acid 7-sulfate (CA7S), binds the nonclassical MHC class I protein MR1 and is recognized by MAIT cells. CA7S is a host-derived metabolite whose levels were reduced by more than 98% in germ-free mice. Deletion of the sulfotransferase 2a family of enzymes (Sult2a1-8) responsible for CA7S synthesis reduced the number of thymic MAIT cells in mice. Moreover, recognition of CA7S induced MAIT cell survival and the expression of a homeostatic gene signature. By contrast, recognition of a previously described foreign antigen, 5-(2-oxopropylideneamino)-6-d-ribitylaminouracil (5-OP-RU), drove MAIT cell proliferation and the expression of inflammatory genes. Thus, CA7S is an endogenous antigen for MAIT cells, which promotes their development and function. Editor's summary: Mucosal-associated invariant T (MAIT) cells are an innate-like T cell subset important for mucosal homeostasis, which recognize microbiota-derived vitamin B metabolites presented by the MHC-Ib molecule MR1. It is unclear, however, whether any host-derived ligands are also important for MAIT cell function and survival. Ito et al. report that the host-derived bile acid metabolite cholic acid 7-sulfate (CA7S) binds MR1 and is recognized by MAIT cells in mice. Moreover, genetic deletion of sulfotransferase 2a enzymes (Sult2a1-8) needed for its synthesis in mice reduced thymic MAIT cell numbers. A previously characterized vitamin B metabolite, 5-OP-RU, triggered human MAIT cell proliferation and the expression of inflammatory genes. By contrast, CA7S promoted human MAIT cell survival and a gene program associated with wound healing and immunoregulation. —Seth Thomas Scanlon [ABSTRACT FROM AUTHOR]

Published

2024

64. A Novel Bifidobacterium longum ssp. longum Strain with Pleiotropic Effects.

Author

Rätsep, Merle, Kilk, Kalle, Zilmer, Mihkel, Kuus, Liina, and Songisepp, Epp

Subjects

BIFIDOBACTERIUM longum, DEOXYCHOLIC acid, ESSENTIAL amino acids, CHOLIC acid, BILE acids, VITAMIN B1, VITAMIN B complex, METHIONINE

Abstract

Postbiotics are gaining increasing interest among the scientific community as well as at the level of food processing enterprises. The aim of this preliminary study was to characterise the metabolic diversity of a novel Bifidobacterium longum strain, BIOCC 1719, of human origin. The change after 24 h cultivation in three media was assessed using a metabolomic approach. Milk-based substrates favoured the activity of the strain, promoting the production of B vitamins, essential amino acids, bile acids, and fatty acids. Vitamins B1, B2, B6, B7, and B12 (with an average increase of 20–30%) were produced in both whole milk and whey; the increased production in the latter was as high as 100% for B7 and 744% for B12. The essential amino acids methionine and threonine were produced (>38%) in both milk and whey, and there was an increased production of leucine (>50%) in milk and lysine (126%) in whey. Increases in the content of docosahexaenoic acid (DHA) by 20%, deoxycholic acid in milk and whey (141% and 122%, respectively), and cholic acid (52%) in milk were recorded. During the preliminary characterisation of the metabolic diversity of the novel B. longum strain, BIOCC 1719, we identified the bioactive compounds produced by the strain during fermentation. This suggests its potential use as a postbiotic ingredient to enrich the human diet. [ABSTRACT FROM AUTHOR]

Published

2024

65. The Effect of Yucca schidigera Extract on Serum Metabolites of Angus Crossbreed Steers with Metabolomics.

Author

Deng, Ziqi, Wu, Baoyun, Yi, Xin, Ma, Jinglei, Liu, Yue, Nussio, Luiz Gustavo, Meng, Qingxiang, Zhou, Zhenming, and Wu, Hao

Subjects

OXIDANT status, BILE acids, CROSSBREEDING, CHOLIC acid, METABOLOMICS, DEOXYCHOLIC acid, UREA, ENTEROHEPATIC circulation

Abstract

This study was conducted to explore the potential effect of Yucca schidigera extract (YSE) on the metabolism of beef cattle. Thirty Angus crossbreed steers were selected, with an initial mean body weight of 506.6 ± 33.3 kg, and assigned to two treatments: a diet with no additives (CON group) and a diet supplemented with 1.75 g/kg of YSE (YSE group) (on a dry matter basis). The experiment lasted for 104 days, with 14 days for adaptation. The results showed that adding YSE could significantly improve the average daily gain (ADG) from 1 to 59 d (15.38%) (p = 0.01) and 1 to 90 d (11.38%) (p < 0.01), as well as dry matter digestibility (DMD) (0.84%) (p < 0.05). The contents of alanine aminotransferase, aspartate aminotransferase, and bilirubin and the total antioxidant capacity were increased and blood urea was reduced in the YSE group, compared to the CON group (p < 0.05). Both the glycerophospholipids and bile acids, including phosphocholine, glycerophosphocholine, PC(15:0/18:2(9Z,12Z)), PE(18:0/20:3(5Z,8Z,11Z)), PE(18:3(6Z,9Z,12Z)/P-18:0), LysoPC(15:0), LysoPC(17:0), LysoPC(18:0), LysoPC(20:5(5Z,8Z,11Z,14Z,17Z)), deoxycholic acid, glycocholic acid, and cholic acid, were upregulated by the addition of YSE. In summary, YSE may improve the ADG by increasing the blood total antioxidant capacity and glycerophospholipid synthesis, maintaining steers under a healthy status that is beneficial for growth. Furthermore, YSE may also increase the expression of bile acid synthesis, thereby promoting DMD, which, in turn, offers more nutrients available for growth. [ABSTRACT FROM AUTHOR]

Published

2024

66. Altered fecal bile acid composition in active ulcerative colitis

Author

Stefanie Sommersberger, Stefan Gunawan, Tanja Elger, Tanja Fererberger, Johanna Loibl, Muriel Huss, Arne Kandulski, Sabrina Krautbauer, Martina Müller, Gerhard Liebisch, Christa Buechler, and Hauke Christian Tews

Subjects

Fecal calprotectin, Cholic acid, Deoxycholic acid, Ulcerative Colitis, Crohn´s Disease, Bile acids, Nutritional diseases. Deficiency diseases, RC620-627

Abstract

Abstract Background Disturbed bile acid homeostasis associated with a rise of primary and a decline of secondary bile acids is a consistent finding in inflammatory bowel diseases (IBDs). Whether fecal bile acids may emerge as biomarkers for IBD diagnosis and disease severity is less clear. Our study aimed to identify associations of 18 fecal bile acid species with IBD entity and disease activity. Methods Stool samples of 62 IBD patients and 17 controls were collected. Eighteen fecal bile acid species were quantified by LC–MS/MS using stable isotope dilution. Lipid levels normalized to a dry weight of the fecal homogenates and ratios of single bile acid species to total bile acid levels were used for calculations. Results IBD patients exhibited altered primary and secondary bile acid ratios in stool, with notable distinctions between ulcerative colitis (UC) compared to Crohn’s disease (CD) and healthy controls. Fecal calprotectin was negatively correlated with glycolithocholic acid (GLCA) and hyodeoxycholic acid (HDCA) in UC. These bile acids were reduced in stool of UC patients with fecal calprotectin levels > 500 µg/g compared to UC patients with low calprotectin levels. Moreover, negative associations of six secondary bile acids with C-reactive protein (CRP) existed in UC. In CD patients, fecal bile acids did not correlate with CRP or fecal calprotectin. Diarrhoea is common in IBD, and UC patients with diarrhoea had reduced deoxycholic acid (DCA), glycine conjugated DCA (GDCA) and lithocholic acid in stool in contrast to patients with normal stool consistency. Fecal bile acid levels were not associated with diarrhoea in CD patients. UC patients treated with mesalazine had increased levels of fecal GDCA whereas no such changes were observed in CD patients. Bile acid levels of CD and UC patients treated with biologicals or corticosteroids did not change. Relative levels of GHDCA (specificity: 79%, sensitivity: 67%) and glycochenodeoxycholic acid (specificity: 74%, sensitivity: 63%) were the most specific to distinguish UC from CD. Conclusion Disrupted fecal bile acid homeostasis is associated with disease severity and disease symptoms in UC but not in CD, potentially aiding in distinguishing IBD subtypes and classifying the pathophysiology of diarrhoea in UC.

Published

2023

67. A microbial-derived succinylated bile acid to safeguard liver health.

Author

Perino, Alessia, Demagny, Hadrien, and Schoonjans, Kristina

Subjects

*BILE acids, *CHOLIC acid, *CELLULAR signal transduction, *LIVER diseases, *AUTHORSHIP collaboration

Abstract

In this issue of Cell , Nie and co-authors report that the microbe-derived bile acid (BA) 3-succinylated cholic acid protects against the progression of metabolic dysfunction-associated liver disease. Intriguingly, its protective mechanism does not involve traditional BA signaling pathways but is instead linked to the proliferation of the commensal microbe Akkermansia muciniphila. [ABSTRACT FROM AUTHOR]

Published

2024

68. Determination of cholic acid and derivative residues in eggs by UPLC-MS/MS

Author

ZHOU Yanhua, TI Tao, XU Wenyang, WANG Xiali, XIANG Jun, and YANG Junwei

Subjects

cholic acid, deoxycholic acid, dehydrochloric acid, egg, ultra performance liquid chromatography-tandem mass spectrometry, Food processing and manufacture, TP368-456

Abstract

Objective: The pretreatment method of through-type solid-phase extraction was improved to be coupled with ultra performance liquid chromatography tandem mass spectrometry for detection of cholic acid，deoxycholic acid and dehydrochloric in eggs. Methods: The samples were extracted by methanol and purified by PRiME HLB，then separated on C18（100 mm×2.1 mm，3.0 μm） column with methanol-0.1% ammonia as the mobile phase for gradient elution. Meanwhile，the samples were quantified by external standard with negative ion select reaction monitoring （SRM） mode. Results: The results showed that the linear relationships of cholic acid （CA），deoxycholic acid （DCA） and dehydrochloric acid（DHCA） were good in the range from 0.5 ng/mL to 500 ng/mL（R2＞0.999）. The detection limits and quantitative limits of CA，DCA and DHCA were 1.0 μg/kg and 3.3 μg/kg. The average recovery of CA，DCA and DHCA from 1.0~10 μg/kg were 93.7%~102.5%，with the RSD of 1.8%~9.2%. 30 batches of randomly selected eggs were tested, and cholic acid was detected in all 28 batches of samples. Conclusion: This method is rapid with high sensitivity，accuracy，and it can be used as a method for the determination of cholic acid and derivative residues in eggs.

Published

2024

69. Alteration of serum bile acids in non-small cell lung cancer identified by a validated LC–MS/MS method.

Author

Yin, Tongxin, Liu, Ke, Shen, Ying, Wang, Yi, Wang, Qiankun, Long, Tingting, Li, Jiaoyuan, and Cheng, Liming

Subjects

*NON-small-cell lung carcinoma, *BILE acids, *LIQUID chromatography-mass spectrometry, *SQUAMOUS cell carcinoma, *CHOLIC acid, *CARNOSIC acid

Abstract

Background: Bile acids (BA) are important metabolites and serve as signaling molecules, which are involve in multiple cancer-related signaling pathways. Methods: A validated LC–MS/MS approach was applied in a case–control study with 220 non-small cell lung cancer (NSCLC) patients and 244 matched healthy controls. The concentrations of seven common types of BAs in serum were determined and compared. Subgroup analyses based on demographic factor, lifestyle, pathologic types and tumor stage were conducted. Machine learning analysis was performed for NSCLC classification. Results: Serum levels of primary BAs, including cholic acid (CA), taurocholic acid (TCA) and glycocholic acid (GCA), were upregulated, while lithocholic acid (LCA), a type of secondary BA, was downregulated in NSCLC patients compared with healthy controls in overall analysis. Higher level of chenodeoxycholic acid (CDCA) and lower level of ursodeoxycholic acid (UDCA) were observed in female, elder, overweight patients, as well as patients without alcohol use in comparison with controls. CDCA and CA levels were higher only in lung adenocarcinoma (LUAD), and UDCA and DCA levels were lower only in squamous cell carcinoma (LUSC), while the concentrations of TCA, GCA, and LCA were altered prevalently in LUAD and LUSC patients. For discrimination of NSCLC from healthy people, the area under the receiver operating characteristics (ROC) curve of the models through support vector machine (SVM) approach was 0.91 (95% CI 0.88–0.94) in the training set and 0.84 (95% CI 0.78–0.91) in the validation set, respectively. Conclusions: Serum BAs were altered in NSCLC patients compared with controls, among which primary BAs were elevated and secondary BAs were decreased. Moreover, distinct patterns of BA alterations were revealed between LUAD patients and LUSC patients. [ABSTRACT FROM AUTHOR]

Published

2023

70. A synergistic 'push and pull' ionic liquid biphasic system for enhanced extraction separation of cholic acid and deoxycholic acid.

Author

Ding, Zexiang, Rong, Fanding, Cao, Yifeng, Shen, Yuanyuan, Yang, Liu, Chen, Lihang, Yang, Qiwei, Zhang, Zhiguo, Ren, Qilong, and Bao, Zongbi

Subjects

*DEOXYCHOLIC acid, *CHOLIC acid, *IONIC liquids, *HYDROGEN bonding interactions, *ETHYL acetate, *CARBOXYL group, *HYDROGEN bonding

Abstract

The separation of structurally similar compounds, such as cholic acid (CA) and deoxycholic acid (DCA), is challenging due to their nearly identical physicochemical properties. This study demonstrates a synergistic 'push and pull' strategy with an ionic liquid (IL) biphasic system for significantly enhanced CA/DCA separation efficiency. Ethyl acetate was selected as the feed solvent to 'push' CA into the IL-rich extractant phase, while the IL 1-ethyl-3-methylimidazolium chloride ([EMIM]Cl) was chosen to 'pull' CA due to their strong hydrogen bonding interaction. This 'push and pull' system yielded a remarkable CA/DCA selectivity up to 47.8, much higher than the case using n-butanol which pulls both CA and DCA. The underlying separation mechanism was elucidated through computational screening with COSMO-RS, NMR analysis, and solvatochromic measurements. Results revealed the critical roles of specific hydrogen bonding between the chloride anion of [EMIM]Cl and the hydroxyl/carboxyl groups of CA/DCA, along with nonspecific interactions between the feed solvent and CA/DCA. Thermodynamic analysis of the phase transfer process confirmed the 'push and pull' synergy is energetically favorable for preferentially transferring CA from the ethyl acetate feed solution into the IL-rich extractant phase. Multi-stage simulation indicated that 99% purity and recovery of both CA and DCA can be obtained through this biphasic system under optimized conditions. Overall, strategically tuning both the feed solvent and IL extractant could significantly enhance the separation efficiency of structurally similar compounds while minimizing solvent and energy consumption. This 'push and pull' approach may shed light on improving separation processes for other structural analogues. [ABSTRACT FROM AUTHOR]

Published

2023

71. ∆4-3-oxo-5β-reductase deficiency: favorable outcome in 16 patients treated with cholic acid.

Author

Gardin, Antoine, Ruiz, Mathias, Beime, Jan, Cananzi, Mara, Rathert, Margarete, Rohmer, Barbara, Grabhorn, Enke, Almes, Marion, Logarajah, Veena, Peña-Quintana, Luis, Casswall, Thomas, Darmellah-Remil, Amaria, Reyes-Domínguez, Ana, Barkaoui, Emna, Hierro, Loreto, Baquero-Montoya, Carolina, Baumann, Ulrich, Fischler, Björn, Gonzales, Emmanuel, and Davit-Spraul, Anne

Subjects

*CHOLIC acid, *URSODEOXYCHOLIC acid, *BLOOD coagulation factor XIII, *LIVER biopsy, *BILE acids, *LIVER failure

Abstract

Background: Oral cholic acid therapy is an effective therapy in children with primary bile acid synthesis deficiencies. Most reported patients with this treatment have 3β-hydroxy-Δ5-C27-steroid oxidoreductase deficiency. The aim of the study was the evaluation of cholic acid therapy in a cohort of patients with the rarer Δ4-3-oxosteroid 5β-reductase (Δ4-3-oxo-R) deficiency. Methods: Sixteen patients with Δ4-3-oxo-R deficiency confirmed by AKR1D1 gene sequencing who received oral cholic acid were retrospectively analyzed. Results: First symptoms were reported early in life (median 2 months of age), with 14 and 3 patients having cholestatic jaundice and severe bleeding respectively. Fifteen patients received ursodeoxycholic acid before diagnosis, with partial improvement in 8 patients. Four patients had liver failure at the time of cholic acid initiation. All 16 patients received cholic acid from a median age of 8.1 months (range 3.1–159) and serum liver tests normalized in all within 6–12 months of treatment. After a median cholic acid therapy of 4.5 years (range 1.1–24), all patients were alive with their native liver. Median daily cholic acid dose at last follow-up was 8.3 mg/kg of body weight. All patients, but one, had normal physical examination and all had normal serum liver tests. Fibrosis, evaluated using liver biopsy (n = 4) or liver elastography (n = 9), had stabilized or improved. Cholic acid therapy enabled a 12-fold decrease of 3-oxo-∆4 derivatives in urine. Patients had normal growth and quality of life. The treatment was well tolerated without serious adverse events and signs of hepatotoxicity. Conclusions: Oral cholic acid therapy is a safe and effective treatment for patients with Δ4-3-oxo-R deficiency. [ABSTRACT FROM AUTHOR]

Published

2023

72. Taurine-conjugated bile acids are the predominant form in hens and have potential impact on lipid metabolism in the liver.

Author

Yang, Wen-Yuan, Chang, Pei-En, Chen, Yi-Ting, Liao, Pei-Xin, and Lin, Yuan-Yu

Subjects

*BILE acids, *LIPID metabolism, *CHICKEN as food, *CHOLIC acid, *HENS

Abstract

In mammals, bile acids composition varies with species, age, physiological conditions. However, the role of bile acids in the laying cycle of hens and their impact on lipid metabolism in chicken liver is not well understood. This study aimed to elucidate the role of bile acids in hen laying cycles, investigating their distribution across ages and assessing the impact of taurine-conjugated lithocholic acid (TLCA) on oleic acid-induced fatty liver cells in chickens. Results revealed an age-related increase in total bile acid concentration in hens blood, with taurine-conjugated bile acids prevailing. Among specific bile acids analysed, taurodeoxycholic acid (TDCA) decreased with age, while taurochenodeoxycholic acid (TCDCA) increased (n = 8). TLCA concentration also decreased gradually, while lycocholic acid (GCA) was elevated in 16-week-old hens (n = 8). Primary bile acids, cholic acid (CA), and chenodeoxycholic acid (CDCA) were higher at 16 weeks compared to egg production commencement (22 weeks) and 34 weeks (n = 8). Moreover, 5ß-Cholenic acid-7a-ol-3-one concentration was elevated in 74-week-old hens post-laying (n = 8). Investigating TLCA's impact on chicken liver lipid metabolism, TLCA significantly reduced lipid droplet accumulation, especially at 20 μM, while upregulating TLCA concentrations correlated with decreased SREBP1 protein expression responsible for triglyceride synthesis. In conclusion, taurine-conjugated bile acids potentially regulate lipid metabolism in hens, offering avenues for enhancing hens health and production through further mechanistic exploration and their potential integration into hens feed. Age-related changes in bile acid composition in hens were observed, with taurine-conjugated bile acids being predominant. Taurine-conjugated lithocholic acid showed promising effects in reducing lipid droplet accumulation and suppressing SREBP1 protein expression in fatty liver cells. [ABSTRACT FROM AUTHOR]

Published

2023

73. Modulation of In Vitro Macrophage Responses via Primary and Secondary Bile Acids in Dogs.

Author

Manchester, Alison C., Chow, Lyndah, Wheat, William, and Dow, Steven

Subjects

*FARNESOID X receptor, *BILE acids, *INTERFERON gamma, *CELL cycle regulation, *ARYL hydrocarbon receptors, *MACROPHAGES, *MICROBIAL metabolites

Abstract

Simple Summary: Bile acids (BAs) are compounds made by the liver that act within the intestinal lumen to aid fat digestion. These molecules are also important signals for the intestinal immune system. Primary BAs (e.g., cholic acid) are converted via intestinal bacteria to secondary BAs (e.g., lithocholic acid). The balance between these two classes of BAs is disrupted in dogs with chronic enteropathy, but the impact on gut immunity is unknown. Changes in diet and antibiotic treatment also disrupt gut luminal BAs by altering gut bacterial populations. Primary and secondary BAs are known from studies in other species to exert different effects on innate immune responses, but their role in canine immunity has not been explored. Therefore, we conducted studies to elucidate the effects of primary and secondary BAs on macrophage immune responses in dogs, with the goal of exploring their possible roles in intestinal immunity. We found some shared and some divergent effects of primary versus secondary BAs on canine macrophages. Our findings suggest that the secondary BAs play the dominant role in regulating GI inflammation in dogs. Bile acids (BA) are important metabolites secreted into the intestinal lumen and impacted by luminal microbes and dietary intake. Prior studies in humans and rodents have shown that BAs are immunologically active and that primary and secondary BAs have distinct immune properties. Therefore, the composition of the gut BA pool may influence GI inflammatory responses. The current study investigated the relative immune modulatory properties of primary (cholic acid, CA) and secondary BAs (lithocholic acid, LCA) by assessing their effects on canine macrophage cytokine secretion and BA receptor (TGR5) expression. In addition, RNA sequencing was used to further interrogate how CA and LCA differentially modulated macrophage responses to LPS (lipopolysaccharide). We found that exposure to either CA or LCA influenced LPS-induced cytokine production via macrophages similarly, with suppression of TNF-α secretion and enhancement of IL-10 secretion. Neither BA altered the expression of the BA receptor TGR5. Transcriptomic analysis revealed that CA activated inflammatory signaling pathways in macrophages involving type II interferon signaling and the aryl hydrocarbon receptor, whereas LCA activated pathways related to nitric oxide signaling and cell cycle regulation. Thus, we concluded that both primary and secondary BAs are active modulators of macrophage responses in dogs, with differential and shared effects evident with sequencing analysis. [ABSTRACT FROM AUTHOR]

Published

2023

74. Effect of Cichorium glandulosum on intestinal microbiota and bile acid metabolism in db/db mice.

Author

Yan, Junlin, Zhang, Rui, Kang, Jinsen, Zhong, Yewei, Abudurexiti, Adalaiti, Tan, Huiwen, Lei, Yi, and Ma, Xiaoli

Subjects

*GUT microbiome, *CICHORIUM, *CHOLIC acid, *CHENODEOXYCHOLIC acid, *MICE, *BILE acids, *ENTEROHEPATIC circulation, *MICROBIAL metabolites

Abstract

This study aims to investigate the effects of Chorum glandulosum Boiss. et Huet (CG) on the intestinal microbiota and serum bile acid (BA) in db/db mice. A total of 12 db/db mice were randomly divided into model (MOD), high‐dose CG (CGH), and control (CON) groups. The CON and MOD groups received distilled water by gavage for 8 weeks. Whereas, the CGH group received an alcohol extract of CG at a dose of 200 mg/kg/day. Results showed that CG can reduce blood lipid levels. It change the composition of the intestinal microbiota, and increase the relative abundances of Muribaculaceae, Prevotellaceae, Bifidobacterium_pseudolongum, Bacteroidaceae in db/db mice as well. LC–MS metabolomics results showed that CG adjusted the serum BA levels. The results reduced the levels of primary BAs, such as cholic acid (CA) and chenodeoxycholic acid (CDCA). The results decreased the primary BA/secondary BA (PSA/SBA) ratio in db/db mice. Correlation analysis showed that the abundances of Bifidobacterium_pseudolongum and Bacteroidaceae were positively correlated with acetic acid level and negatively correlated with ursocholic acid (UCA), α‐muricholic acid (αMCA), triglyceride (TG), and total cholesterol levels (TC), indicating an interaction between the intestinal microbiota and serum BAs. CG may play a positive role in the interaction between the intestinal microbiota and BAs in lipid metabolism. [ABSTRACT FROM AUTHOR]

Published

2023

75. UPLC-MS/MS检测鸡蛋中胆酸及其衍生物.

Author

周艳华, 李涛, 徐文泱, 汪霞丽, 向俊, and 杨俊伟

Abstract

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Published

2023

76. Decreased FXR Agonism in the Bile Acid Pool Is Associated with Impaired FXR Signaling in a Pig Model of Pediatric NAFLD.

Author

Maj, Magdalena A., Burrin, Douglas G., and Manjarín, Rodrigo

Subjects

BILE acids, FARNESOID X receptor, NON-alcoholic fatty liver disease, CHOLIC acid, FIBROBLAST growth factors

Abstract

The objective of this study was to investigate whether the impairment of farnesoid X receptor (FXR)-fibroblast growth factor 19 (FGF19) signaling in juvenile pigs with non-alcoholic fatty liver disease (NAFLD) is associated with changes in the composition of the enterohepatic bile acid pool. Eighteen 15-day-old Iberian pigs, pair-housed in pens, were allocated to receive either a control (CON) or high-fructose, high-fat (HFF) diet. Animals were euthanized in week 10, and liver, blood, and distal ileum (DI) samples were collected. HFF-fed pigs developed NAFLD and had decreased FGF19 expression in the DI and lower FGF19 levels in the blood. Compared with the CON, the HFF diet increased the total cholic acid (CA) and the CA to chenodeoxycholic acid (CDCA) ratio in the liver, DI, and blood. CA and CDCA levels in the DI were negatively and positively correlated with ileal FGF19 expression, respectively, and blood levels of FGF19 decreased with an increasing ileal CA to CDCA ratio. Compared with the CON, the HFF diet increased the gene expression of hepatic 12-alpha-hydrolase, which catalyzes the synthesis of CA in the liver. Since CA species are weaker FXR ligands than CDCA, our results suggest that impairment of FXR-FGF19 signaling in NAFLD pigs is associated with a decrease in FXR agonism in the bile acid pool. [ABSTRACT FROM AUTHOR]

Published

2023

77. Altered fecal bile acid composition in active ulcerative colitis.

Author

Sommersberger, Stefanie, Gunawan, Stefan, Elger, Tanja, Fererberger, Tanja, Loibl, Johanna, Huss, Muriel, Kandulski, Arne, Krautbauer, Sabrina, Müller, Martina, Liebisch, Gerhard, Buechler, Christa, and Tews, Hauke Christian

Subjects

*BILE acids, *ULCERATIVE colitis, *INFLAMMATORY bowel diseases, *CROHN'S disease, *DEOXYCHOLIC acid

Abstract

Background: Disturbed bile acid homeostasis associated with a rise of primary and a decline of secondary bile acids is a consistent finding in inflammatory bowel diseases (IBDs). Whether fecal bile acids may emerge as biomarkers for IBD diagnosis and disease severity is less clear. Our study aimed to identify associations of 18 fecal bile acid species with IBD entity and disease activity. Methods: Stool samples of 62 IBD patients and 17 controls were collected. Eighteen fecal bile acid species were quantified by LC–MS/MS using stable isotope dilution. Lipid levels normalized to a dry weight of the fecal homogenates and ratios of single bile acid species to total bile acid levels were used for calculations. Results: IBD patients exhibited altered primary and secondary bile acid ratios in stool, with notable distinctions between ulcerative colitis (UC) compared to Crohn's disease (CD) and healthy controls. Fecal calprotectin was negatively correlated with glycolithocholic acid (GLCA) and hyodeoxycholic acid (HDCA) in UC. These bile acids were reduced in stool of UC patients with fecal calprotectin levels > 500 µg/g compared to UC patients with low calprotectin levels. Moreover, negative associations of six secondary bile acids with C-reactive protein (CRP) existed in UC. In CD patients, fecal bile acids did not correlate with CRP or fecal calprotectin. Diarrhoea is common in IBD, and UC patients with diarrhoea had reduced deoxycholic acid (DCA), glycine conjugated DCA (GDCA) and lithocholic acid in stool in contrast to patients with normal stool consistency. Fecal bile acid levels were not associated with diarrhoea in CD patients. UC patients treated with mesalazine had increased levels of fecal GDCA whereas no such changes were observed in CD patients. Bile acid levels of CD and UC patients treated with biologicals or corticosteroids did not change. Relative levels of GHDCA (specificity: 79%, sensitivity: 67%) and glycochenodeoxycholic acid (specificity: 74%, sensitivity: 63%) were the most specific to distinguish UC from CD. Conclusion: Disrupted fecal bile acid homeostasis is associated with disease severity and disease symptoms in UC but not in CD, potentially aiding in distinguishing IBD subtypes and classifying the pathophysiology of diarrhoea in UC. [ABSTRACT FROM AUTHOR]

Published

2023

78. Characteristics and metabolic potential of biliary microbiota in patients with giant common bile duct stones.

Author

Chenguang Dai, Chunfang Xu, Lu Zheng, Min Wang, Zhining Fan, Jianxin Ye, and Dongming Su

Subjects

GALLSTONES, MATRIX-assisted laser desorption-ionization, LIQUID chromatography-mass spectrometry, ENDOSCOPIC retrograde cholangiopancreatography, CHOLIC acid, BILE acids

Abstract

Background: Endoscopic retrograde cholangiopancreatography (ERCP) is an effective minimally invasive operation for the management of choledocholithiasis, while successful extraction is hampered by large diameter of stones. Emerging studies have revealed the close correlation between biliary microbiota and common bile duct stones (CBDS). In this study, we aimed to investigate the community characteristics and metabolic functions of biliary microbiota in patients with giant CBDS. Methods: Eligible patients were prospectively enrolled in this study in First Affiliated Hospital of Soochow University from February 2022 to October 2022. Bile samples were collected through ERCP. The microbiota was analyzed using 16S rRNA sequencing. Metabolic functions were predicted by PICRUSTs 2.0 calculation based on MetaCyc database. Bile acids were tested and identified using ultra performance liquid chromatography-tandem mass spectrometry. Results: A total of 26 patients were successfully included into final analysis, 8 in giant stone (GS) group and 18 in control group. Distinct biliary microbial composition was identified in patients with giant CBDS, with a significantly higher abundance of Firmicutes at phylum level. The unique composition at genus level mainly consisted of Enterococcus, Citrobacter, Lactobacillus, Pyramidobacter, Bifidobacterium and Shewanella. Pyramidobacter was exclusively found in GS group, along with the absence of Robinsoniella and Coprococcus. The contents of free bile acids were significantly higher in GS group, including cholic acid (98.39mmol/mL vs. 26.15mmol/mL, p=0.035), chenodesoxycholic acid (54.69mmol/mL vs. 5.86mmol/mL, p=0.022) and ursodeoxycholic acid (2.70mmol/mL vs. 0.17mmol/mL, p=0.047). Decreasing tendency of conjugated bile acids were also observed. Metabolic pathways concerning cholelithiasis were abundant in GS group, including geranylgeranyl diphosphate biosynthesis, gluconeogenesis, glycolysis and L-methionine biosynthesis. Conclusions: This study demonstrated the community structure and metabolic potential of biliary microbiota in patients with giant CBDS. The unique biliary microbial composition holds valuable predictive potential for clinical conditions. These findings provide new insights into the etiology of giant CBDS from the perspective of biliary microbiota. [ABSTRACT FROM AUTHOR]

Published

2023

79. Integration of semi-empirical MS/MS library with characteristic features for the annotation of novel amino acid-conjugated bile acids.

Author

Ma, Yan, Cao, Yang, Song, Xiaocui, Xu, Weichen, Luo, Zichen, Shan, Jinjun, and Zhou, Jingjie

Subjects

*BILE acids, *DEOXYCHOLIC acid, *CHOLIC acid, *FARNESOID X receptor, *SMALL molecules, *AMINO acids, *BEAGLE (Dog breed)

Abstract

Recently, amino acids other than glycine and taurine were found to be conjugated with bile acids by the gut microbiome in mouse and human. As potential diagnostic markers for inflammatory bowel disease and farnesoid X receptor agonists, their physiological effects and mechanisms, however, remain to be elucidated. A tool for the rapid and comprehensive annotation of such new metabolites is required. Thus, we developed a semi-empirical MS/MS library for bile acids conjugated with 18 common amino acids, including alanine, arginine, asparagine, aspartate, glutamine, glutamate, histidine, isoleucine, leucine, lysine, methionine, phenylalanine, proline, serine, threonine, tryptophan, tyrosine, and valine. To investigate their fragmentation rules, these amino acids were chemically conjugated with lithocholic acid, deoxycholic acid, and cholic acid, and their accurate-mass MS/MS spectra were acquired. The common fragmentation patterns from the amino acid moieties were combined with 10 general bile acid skeletons to generate a semi-empirical MS/MS library of 180 structures. Software named BAFinder 2.0 was developed to combine the semi-empirical library in negative mode and the characteristic fragments in positive mode for automatic unknown identification. As a proof of concept, this workflow was applied to the LC-MS/MS analysis of the feces of human, beagle dogs, and rats. In total, 171 common amino acid-conjugated bile acids were annotated and 105 of them were confirmed with the retention times of synthesized compounds. To explore other potential bile acid conjugates, user-defined small molecules were in-silico conjugated with bile acids and searched in the fecal dataset. Four novel bile acid conjugates were discovered, including D -Ala- D -Ala, Lys(iso)-Gly, L -2-aminobutyric acid, and ornithine. [ABSTRACT FROM AUTHOR]

Published

2023

80. Can a 12-gene expression signature predict the cell transforming potential of tumor promoting agents in Bhas 42 cells?

Author

Guichard, Yves, Savoy, Caroline, and Gaté, Laurent

Subjects

*GENE expression, *CHOLIC acid, *QUERCETIN, *CELL proliferation, *GENETIC toxicology, *CELL transformation, *CELL lines

Abstract

To date, long-term rodent carcinogenesis assays are the only assays recognized by regulators to assess non-genotoxic carcinogens, but their reliability has been questioned. In vitro cell transformation assays (CTAs) could represent an interesting alternative to animal models as it has the advantage of detecting both genotoxic and non-genotoxic transforming chemicals. Among them, Bhas 42 CTA uses a cell line that has been transfected with the oncogenic sequence v-Ha- ras. This sequence confers an "initiated" status to these cells and makes them particularly sensitive to non-genotoxic agents. In a previous work, transcriptomic analysis revealed that the treatment of Bhas 42 cells with transforming silica (nano)particles and 12- O -tetradecanoylphorbol-13-acetate (TPA) commonly modified the expression of 12 genes involved in cell proliferation and adhesion. In the present study, we assess whether this signature would be the same for four other soluble transforming agents, i.e. mezerein, methylarsonic acid, cholic acid and quercetin. The treatment of Bhas 42 cells for 48 h with mezerein modified the expression of the 12 genes of the signature according to the same profile as that of the TPA. However, methylarsonic acid and cholic acid gave an incomplete signature with changes in the expression of only 7 and 5 genes, respectively. Finally, quercetin treatment induced no change in the expression of all genes but exhibited higher cytotoxicty. These results suggest that among the transforming agents tested, some may share similar mechanisms of action leading to cell transformation while others may activate different additional pathways involved in such cellular process. More transforming and non-transforming agents and gene markers should be tested in order to try to identify a relevant gene signature to predict the transforming potential of non-genotoxic agents. • A 12-gene signature predictive of cell transformation in Bhas 42 cells was investigated. • TPA, mezerein, methylarsonic acid, cholic acid and quercetin were tested. • The signature could be reduced to Prl2c1, Postn , Timp4 and Lum genes. • Dose-response in gene expression changes were not always found. • The relevance of theses genes as predictive biomarkers needs to be confirmed. [ABSTRACT FROM AUTHOR]

Published

2023

81. Identification of Novel Biomarkers for Early Diagnosis of Atherosclerosis Using High-Resolution Metabolomics.

Author

Sardar, Syed Wasim, Nam, Jeonghun, Kim, Tae Eun, Kim, Hyunil, and Park, Youngja H.

Subjects

METABOLOMICS, CHOLIC acid, RECEIVER operating characteristic curves, EARLY diagnosis, HYPOXANTHINE, AMINO acids, LEUCINE, BILE acids

Abstract

Atherosclerosis (AS) is a metabolic disorder and the pre-stage of several cardiovascular diseases, including myocardial infarction, stroke, and angina pectoris. Early detection of AS can provide the opportunity for effective management and better clinical results, along with the prevention of further progression of the disease. In the current study, an untargeted and targeted metabolomic approach was used to identify possible metabolic signatures that have altered levels in AS patients. A total of 200 serum samples from individuals with AS and normal were analyzed via liquid chromatography–high-resolution mass spectrometry. Univariate and multivariate analysis approaches were used to identify differential metabolites. A group of metabolites associated with bile acids, amino acids, steroid hormones, and purine metabolism were identified that are capable of distinguishing AS-risk sera from normal. Further, the targeted metabolomics approach confirmed that six metabolites, namely taurocholic acid, cholic acid, cortisol, hypoxanthine, trimethylamine N-oxide (TMAO), and isoleucine, were found to be significantly upregulated, while the concentrations of glycoursodeoxycholic acid, glycocholic acid, testosterone, leucine, methionine, phenylalanine, tyrosine, and valine were found to be significantly downregulated in the AS-risk sera. The receiver operating characteristic curves of three metabolites, including cortisol, hypoxanthine, and isoleucine, showed high sensitivity and specificity. Taken together, these findings suggest cortisol, hypoxanthine, and isoleucine as novel biomarkers for the early and non-invasive detection of AS. Thus, this study provides new insights for further investigations into the prevention and management of AS. [ABSTRACT FROM AUTHOR]

Published

2023

82. Simultaneous determination of seven bile acids to study the effect of ivermectin on their plasma levels in rat by UHPLC–MS/MS.

Author

Mullapudi, T. V. Radhakrishna, Ravi, Punna Rao, and Thipparapu, Ganapathi

Subjects

*IVERMECTIN, *FARNESOID X receptor, *BILE acids, *LIQUID chromatography-mass spectrometry, *CHOLIC acid, *DEOXYCHOLIC acid, *ENTEROHEPATIC circulation, *RATS

Abstract

Bile acids (BAs) are considered to be important diagnostic biomarkers to understand the pathophysiology of hepatobiliary and metabolic diseases. BAs regulate lipid and glucose metabolism by binding to farnesoid X receptor (FXR). To date, there were no reports on the effect of an exogenous FXR modulator, ivermectin (IVM), on the plasma BA profiles in rats. To explore the effect of IVM on plasma BA levels in rat, an ultra-high performance liquid chromatography-tandem mass spectrometry (UHPLC–MS/MS) method was developed and validated for simultaneous determination of seven major BAs in rat plasma. The developed method was selective, specific, accurate and precise for the quantification of plasma BAs. Sprague–Dawley rats were orally administered with IVM at a dose of 5 mg/kg once a day for 14 days and the plasma BAs were determined before and after IVM exposure using developed UHPLC–MS/MS method. Once-daily administration of IVM for 14 days resulted in significant reduction in cholic acid and deoxycholic acid levels while glycodeoxycholic acid and taurodeoxycholic acid levels were not affected. Interestingly, tauro-α-muricholic acid and tauro-β-muricholic acid levels were significantly increased. This study revealed that IVM has an important effect on plasma BA profiles in rats. This report provides an analytical methodology that can be applied to investigate the effect of drugs or pathophysiological factors on plasma BA levels. [ABSTRACT FROM AUTHOR]

Published

2023

83. Comprehensive summary of steroid metabolism in Comamonas testosteroni TA441: entire degradation process of basic four rings and removal of C12 hydroxyl group.

Author

Masae Horinouchi and Toshiaki Hayashi

Subjects

*HYDROXYL group, *DOUBLE bonds, *STEROIDS, *AEROBIC bacteria, *KETONES

Abstract

Comamonas testosteroni is one of the representative aerobic steroid-degrading bacteria. We previously revealed the mechanism of steroidal A,B,C,D-ring degradation by C. testosteroni TA441. The corresponding genes are located in two clusters at both ends of a mega-cluster of steroid degradation genes. ORF7 and ORF6 are the only two genes in these clusters, whose function has not been determined. Here, we characterized ORF7 as encoding the dehydrase responsible for converting the C12ß hydroxyl group to the C10(12) double bond on the C-ring (SteC), and ORF6 as encoding the hydrogenase responsible for converting the C10(12) double bond to a single bond (SteD). SteA and SteB, encoded just upstream of SteC and SteD, are in charge of oxidizing the C12a hydroxyl group to a ketone group and of reducing the latter to the C12ß hydroxyl group, respectively. Therefore, the C12a hydroxyl group in steroids is removed with SteABCD via the C12 ketone and C12ß hydroxyl groups. Given the functional characterization of ORF6 and ORF7, we disclose the entire pathway of steroidal A,B,C,D-ring breakdown by C. testosteroni TA441. [ABSTRACT FROM AUTHOR]

Published

2023

84. Identification of "missing links" in C- and D-ring cleavage of steroids by Comamonas testosteroni TA441.

Author

Masae Horinouchi and Toshiaki Hayashi

Subjects

*KETONES, *HYDROXYL group, *AROMATIZATION, *CHOLIC acid, *BILE acids

Abstract

Comamonas testosteroni TA441 is capable of aerobically degrading steroids through the aromatization and cleavage of the A- and B-rings, followed by D- and C-ring cleavage via ß-oxidation. While most of the degradation steps have been previously characterized, a few intermediate compounds remained unidentified. In this study, we proposed that the cleavage of the D-ring at C13-17 required the ScdY hydratase, followed by C-ring cleavage via the ScdL1L2 transferase. The anticipated reaction was expected to yield 6-methyl-3,7-dioxo-decane-1,10-dioic acid-coenzyme A (CoA) ester. To confirm this hypothesis, we constructed a plasmid enabling the induction of targeted genes in TA441 mutant strains. Induction experiments of ScdL1L2 revealed that the major product was 3-hydroxy-6-methyl-7-oxo-decane-1,10-dioic acid-CoA ester. Similarly, induction experiments of ScdY demonstrated that the substrate of ScdY was a geminal diol, 17-dihydroxy-9-oxo-1,2,3,4,5,6,10,19-octanorandrost-8(14)-en-7-oic acid-CoA ester. These findings suggest that ScdY catalyzes the addition of a water molecule at C14 of 17-dihydroxy-9-oxo-1,2,3,4,5,6,10,19-octanorandrost-8(14)-en-7-oic acid-CoA ester, leading to D-ring cleavage at C13-17. Subsequently, the C9 ketone of the D-ring cleavage product is converted to a hydroxyl group, followed by C-ring cleavage, resulting in the production of 3-hydroxy-6-methyl-7-oxo-decane-1,10-dioic acid-CoA ester. [ABSTRACT FROM AUTHOR]

Published

2023

85. Valorisation of waste streams within the agri-food sector

Author

Young, James, McCoy, Colin, and Rooney, David

Subjects

660, agriculture, agri-food, agri-waste, valorisation, energy, modelling, nutraceuticals, chondroitin sulfate, cholic acid, berry pomace, filtration, ion exchange, high performance liquid chromatography, capillary electrophoresis, Raman, traceability, validation, ICP-OES, BET, SEM

Abstract

Over the twenty-year period between 1998 and 2018 the number of full-time farmers within the Northern Ireland (NI) agri-tech sector dropped from 22,524 to 16,964. As expected, this has also resulted in a commensurate loss in the total cattle livestock which has decreased from 1.77 million to 1.63 million. Despite this, NI beef and sheep meat production accounted for 15% of the total UK output and represents 27% of the gross agricultural turnover in 2017 or £1.3 billion in 2016, while animal by- products accounted for revenues worth £53 million. While the sector produces a number of high-quality food products, a significant amount of waste is generated during processing. Given increased global competition in the sector and new challenges including climate mitigation it is desired to enhance the overall value and image of the sector and hence valorisation of wastes is increasingly attractive. This project investigates valorisation of waste streams in the agri-food sector, particularly those which would have been traditionally sent for rendering or exported at low value to other countries for upgrading. The project specifically focuses on the production technologies for specialist chemical compounds from meat by-products and evaluation of the energy potential for plant-based wastes. Overall the data generated within this work aims to boost the agri-tech sector by creating additional revenue streams through diversification of the product portfolio. The main achievements of this project are associated with the production of traceable nutraceutical products and their intermediaries with proven analysis of the traceability system and the quality of the nutraceuticals exploited. These products will be processed by sustainable separation and extraction techniques that are efficient along with the understanding of global economics and market size of nutraceuticals. Furthermore, focussing upon the release of energy from specific biomass and kinetic modelling of such material in terms of reaction progress, rate of reaction and activation energy associated with each heating rate applied to the material. Note this thesis is heavily redacted for reasons owing to the commercial sensitivity of the subject matter. It would substantially prejudice the commercial interests of the author, the University or an external company if the entire thesis were made available in unredacted format. Note that pp 11-147 & 18- -307 are permanently redacted.

Published

2020

86. The Increased Dissolution and Oral Absorption of Itraconazole by Nanocrystals with an Endogenous Small-Molecule Surfactant as a Stabilizer

Author

Sheng Chang, Qiang Yang, Jiahuan Liu, Li Yin, Jihong Han, Lanlan Zong, and Xiaohui Pu

Subjects

itraconazole, nanocrystals, cholic acid, supersaturation dissolution, in vivo pharmacokinetics, bioavailability, Organic chemistry, QD241-441

Abstract

The aim of this study was to develop cholic-acid-stabilized itraconazole nanosuspensions (ITZ-Nanos) with the objective of enhancing drug dissolution and oral absorption. A laboratory-scale microprecipitation–high-pressure homogenization method was employed for the preparation of the ITZ-Nanos, while dynamic light scattering, transmission electron microscope analysis, X-ray diffraction, differential scanning calorimetry, and high-performance liquid chromatography analysis were utilized to evaluate their physicochemical properties. The absorption and bioavailability of the ITZ-Nanos were assessed using Caco-2 cells and rats, with Sporanox® pellets as a comparison. Prior to lyophilization, the particle size of the ITZ-Nanos measured approximately 225.7 nm. Both X-ray diffraction and differential scanning calorimetry confirmed that the ITZ remained crystalline within the nanocrystals. Compared to the pellets, the ITZ-Nanos exhibited significantly higher levels of supersaturation dissolution and demonstrated enhanced drug uptake by the Caco-2 cells. The AUC(0–t) value for the ITZ-Nanos in rats was 1.33-fold higher than that observed for the pellets. These findings suggest that cholic acid holds promise as a stabilizer for ITZ nanocrystals, as well as potentially other nanocrystals.

Published

2024

87. Investigating the antidepressant effect of Ziyan green tea on chronic unpredictable mild stress mice through fecal metabolomics.

Author

Wenbao Jia, Qian Tang, Yao Zou, Yang Yang, Wenliang Wu, and Wei Xu

Subjects

GREEN tea, GUT microbiome, CHOLIC acid, ANTIDEPRESSANTS, DEOXYCHOLIC acid, MICE, FARNESOID X receptor, METABOLOMICS

Abstract

Introduction: Some studies have shown the effectiveness of tea in reducing depression. Gut flora dysfunction is strongly associated with depression. The mechanism by which Ziyan green tea ameliorates depression is not clear. Methods: In this study, we examined the impact of Ziyan green tea on mice exhibiting symptoms similar to depression. We specifically focused on the role of intestinal flora and its metabolites. We first established a chronic unpredictable mild stress (CUMS) mouse model to induce depressive symptoms and conducted behavioural tests, biochemical tests, and pathological tissue analysis. We also investigated gut microbiota changes by 16S rRNA sequencing and measured faecal metabolites in mice using UHPLC-MS/MS. Results: The results showed that Ziyan green tea intervention improved depression-like behaviour, neurobiochemical factors, and reduced levels of proinflammatory factors in CUMS mice. Spearman's correlation analysis showed that different microbial communities (Corynebacterium, Faecalibaculum, Enterorhabdus, Desulfovibrio) correlation with differential metabolites (Cholic acid, Deoxycholic acid, etc.) and depression-related biochemical indicators (5- HT, DA, BDNF, IL-6, and TNF-α). Discussion: In conclusion, our findings suggest that both low and high-dose interventions of Ziyan green tea have positive preventive effects on CUMS mice without dose dependence, partly because they mainly affect intestinal Purine Metabolism, Bile Acid Biosynthesis and Cysteine Metabolism in CUMS mice, thus stimulating brain 5-HT, DA and BDNF, and decreasing the inflammatory factors IL- 6, TNF-α, activate the composition of intestinal flora, improve the intestinal flora environment and thus promote the production of intestinal metabolites, which can be used for depression treatment. It is suggested that Ziyan green tea may achieve an antidepressant effect through the gut-microbiota-brain axis. [ABSTRACT FROM AUTHOR]

Published

2023

88. A bout of endurance and resistance exercise transiently decreases plasma levels of bile acids in young, sedentary adults.

Author

Osuna‐Prieto, Francisco J., Jurado‐Fasoli, Lucas, Plaza‐Florido, Abel, Yang, Wei, Kohler, Isabelle, Di, Xinyu, Rubio‐López, José, Sanchez‐Delgado, Guillermo, Rensen, Patrick C. N., Ruiz, Jonatan R., and Martinez‐Tellez, Borja

Subjects

*RESISTANCE training, *SEDENTARY lifestyles, *GRIP strength, *HOMEOSTASIS, *ENDURANCE sports training, *CARDIOPULMONARY fitness, *GROWTH factors, *LIQUID chromatography, *GENETIC disorders, *PHYSICAL fitness, *BILE acids, *EXERCISE, *RESEARCH funding, *MASS spectrometry, *DESCRIPTIVE statistics, *GLUCOSE, *LIPID metabolism disorders, *ADULTS

Abstract

Circulating bile acids (BA) are signaling molecules that control glucose and lipid metabolism. However, the effects of acute exercise on plasma levels of BA in humans remain poorly understood. Here, we evaluate the effects of a bout of maximal endurance exercise (EE) and resistance exercise (RE) on plasma levels of BA in young, sedentary adults. Concentration of eight plasma BA was measured by liquid chromatography–tandem mass spectrometry before and 3, 30, 60, and 120 min after each exercise bout. Cardiorespiratory fitness (CRF) was assessed in 14 young adults (21.8 ± 2.5 yo, 12 women); muscle strength was assessed in 17 young adults (22.4 ± 2.5 yo, 11 women). EE transiently decreased plasma levels of total, primary, and secondary BA at 3 and 30 min after exercise. RE exerted a prolonged reduction in plasma levels of secondary BA (p < 0.001) that lasted until 120 min. Primary BA levels of cholic acid (CA) and chenodeoxycholic acid (CDCA) were different across individuals with low/high CRF levels after EE (p ≤ 0.044); CA levels were different across individuals with low/high handgrip strength levels. High CRF individuals presented higher levels of CA and CDCA 120 min after exercise vs baseline (+77% and +65%) vs the low CRF group (−5% and −39%). High handgrip strength levels individuals presented higher levels of CA 120 min after exercise versus baseline (+63%) versus the low handgrip strength group (+6%). The study findings indicate that an individual's level of physical fitness can influence how circulating BA respond to both endurance and resistance exercise. Additionally, the study suggests that changes in plasma BA levels after exercising could be related to the control of glucose homeostasis in humans. [ABSTRACT FROM AUTHOR]

Published

2023

89. Dihydromyricetin ameliorated nonalcoholic steatohepatitis in mice by regulating the composition of serous lipids, bile acids and ileal microflora.

Author

Miao, Xiaolei, Luo, Ping, Liu, Jiao, Wang, Junjun, and Chen, Yong

Subjects

*NON-alcoholic fatty liver disease, *BILE acids, *ASPARTATE aminotransferase, *STAINS & staining (Microscopy), *CHOLIC acid, *LIPIDS

Abstract

Background: Dihydromyricetin (DMY) is a natural flavonoid with anti-nonalcoholic steatohepatitis (NASH) activity. However, the effects of DMY on the composition of lipids and bile acids (BAs) in serum, and gut microbiota (GM) in ileum of mice with NASH are not clear. Methods: After male C57BL/6 mice was fed with methionine and choline deficiency (MCD) diet and simultaneously administered with DMY (300 mg/kg/day) by gavage for 8 weeks, the pathological changes of liver tissue were observed by Oil Red O, hematoxylin eosin and Masson staining, the levels of serum alaninea minotransferase, aspartate aminotransferase and liver triglyceride, malonic dialdehyde were detected by the detection kits, the composition and contents of serum lipids and BAs were detected by Liquid Chromatograph-Mass Spectrometry, the mRNA levels of hepatic BAs homeostasis-related genes were detected by RT-qPCR, and microbiological diversity in ileum was analyzed by 16S rDNA sequencing. Results: The results showed that the significant changes including 29 lipids, 4 BAs (23-nor-deoxycholic acid, ursodeoxycholic acid, 7-ketodeoxycholic acid and cholic acid), 2 BA transporters (Mrp2 and Oatp1b2) and 8 GMs between MCD and DMY groups. Among them, DMY treatment significantly down-regulated 21 lipids, 4 BAs mentioned above, the ratio of Firmicutes/Bacteroidota and the abundance of Erysipelotrichaceae, Faecalibacuium, significantly up-regulated 8 lipids and 5 GMs (Verrucomicrobiota, Bacteroidota, Actinobacteria, Akkermansiaceae and Akkermansia). Conclusions: The results suggested that DMY may alleviate MCD diet-induced NASH through decreasing the serum levels of toxic BAs which regulated by liver Oatp1b2 and Mrp2, regulating the metabolism of related lipids, and up-regulating intestinal probiotics (Actinobacteria and Verrucomicrobiota at the phylum level; Akkermansiaceae at the family level; Akkermansiaat at the genus level) and inhibiting intestinal harmful bacteria (Firmicutes at the phylum level; Erysipelotrichaceae at the family level; Faecalibaculum at the genus level). [ABSTRACT FROM AUTHOR]

Published

2023

90. IBS-D诊断及治疗的潜在靶点——脂质、 类花生酸及胆汁酸类差异代谢物.

Author

于官正, 李 鸿, 涂 星, 张 燕, 杨 宝, and 聂 娟

Subjects

*IRRITABLE colon, *CHOLIC acid, *PROSTAGLANDIN E1, *ETHER lipids, *PHOSPHATIDYLETHANOLAMINES

Abstract

AIM: To explore the endogenous differential metabolites in colon tissue of diarrhea-type irritable bowel syndrome (IBS-D) rats induced by multiple factors (maternal separation combined with restraint stress, acetic acid stimulation of rectum and folium sennae by intragastric administration), so as to search for the potential links and targets for the diagnosis and treatment of IBS-D. METHODS: SD rats were divided into control group and IBS-D (model) group randomly. The IBS-D rat were induced by maternal separation combined with restraint stress, acetic acid stimulation of rectum and folium sennae by intragastric administration. General behavioral observations, Bristol integral system, moisture of the feces and AWR score pressure threshold of rats were performed, and the pathological changes of intestinal tissues were observed by HE and AB-PAS. Endogenous metabolites in colon tissue was detected by UPLC-Q-TOF-MS and the endogenous differential metabolites were analyzed by principal component analysis and orthogonal partial least squares discriminant analysis. The metabolic pathways were established by MetaboAnalyst 5. 0 software. RESULTS: Comparing with control group, the general behavioral score and AWR score pressure threshold of rats in IBS-D group decreased significantly (P<0. 05), while Bristol integral system and moisture of the feces increased significantly (P<0. 05). There were not shed of epithelial cells in the colon tissue, no infiltration of inflammatory cells and edema. The structure of muscle fibers was compact, the size of goblet cells was neat, and there was no ablation of crypts and villi. Metabolomics analysis identified 76 different metabolites in rat intestinal tissues, including phosphatidyl ethanolamine, prostaglandin E1, cholic acid, etc. The main metabolic pathways involved were glycerophospholipid metabolism and ether lipid metabolism. CONCLUSION: The IBS-D rat model induced by maternal separation combined with restraint stress, acetic acid stimulation of rectum and folium sennae by intragastric administration showed typical symptoms such as abdominal pain, diarrhea, and no pathological changes in colon, which highly fit its clinical characteristics. Significant differential regulation of lipids, eicosanoids and bile acids metabolites exist in IBS-D rats, which may be the pathological potential targets and diagnostic potential indicator in basic research and clinical practice of IBS-D. [ABSTRACT FROM AUTHOR]

Published

2023

91. Bile acid metabolites in early pregnancy and risk of gestational diabetes mellitus: Results from a prospective cohort study.

Author

Wu, Yuwan, Wang, Zheng, Zhao, Zhi, Song, Xiuxia, Miao, Maohua, and Zhang, Xi

Subjects

*GESTATIONAL diabetes, *BILE acids, *LIQUID chromatography-mass spectrometry, *CHOLIC acid, *DEOXYCHOLIC acid, *LONGITUDINAL method

Abstract

Aims: To evaluate the associations of plasma bile acid metabolites, especially in early pregnancy, with gestational diabetes mellitus (GDM) risk among pregnant women. Materials and Methods: Plasma concentrations of 15 bile acid metabolites were measured in 645 women at early pregnancy from the Jiashan Birth Cohort using a liquid chromatography‐tandem mass spectrometry metabolomics platform. Using logistic and cubic spline models, we examined associations between baseline plasma bile acid metabolites and GDM risk during mid‐late pregnancy. A meta‐analysis of prospective studies of bile acid and GDM risk was performed. Results: The linear and nonlinear univariate models identified eight metabolites associated with GDM, including cholic acid, taurocholic acid (TCA), glycocholic acid, glycochenodeoxycholic acid, deoxycholic acid, lithocholic acid (LCA), ursodeoxycholic acid and taurolithocholic acid (all P <0.05). Multivariable analysis indicated that TCA and LCA levels were positively (odds ratio [OR] 2.07, 95% confidential interval [CI] 1.05, 3.96; P = 0.030) and negatively (OR 0.83, 95% CI 0.68, 1.01; P = 0.065) associated with GDM, respectively, after adjusting for confounders. The TCA‐GDM association showed a positive linear shaped relationship (OR 2.07, 95% CI 1.05, 3.96; P = 0.030); while LCA was negatively related with GDM risk in linearity (OR 0.83, 95% CI 0.68, 1.01; P = 0.065). The meta‐analysis of five studies showed a consistent bile acid and GDM association, with a risk ratio (RR) of 2.43 (1.95, 3.03). Conclusions: This study indicated that, the levels of circulating bile acids in early pregnancy were associated with risk of GDM, independent of GDM risk factors. Most GDM‐associated bile acids were primary conjugated and secondary unconjugated bile acids. [ABSTRACT FROM AUTHOR]

Published

2023

92. A blend of medium-chain fatty acids, butyrate, organic acids, and a phenolic compound accelerates microbial maturation in newly weaned piglets.

Author

Diether, Natalie E., Hulshof, Tetske G., Willing, Benjamin P., and van Kempen, Theo A. T. G.

Subjects

*ORGANIC acids, *CHOLIC acid, *BILE acids, *PIGLETS, *FATTY acids, *BUTYRATES, *TRYPTOPHAN

Abstract

Inclusion of additive blends is a common dietary strategy to manage post-weaning diarrhea and performance in piglets. However, there is limited mechanistic data on how these additives improve outcomes during this period. To evaluate the effects of Presan FX (MCOA) on the intestinal microbiota and metabolome, diets with or without 0.2% MCOA were compared. Pigs fed MCOA showed improved whole-body metabolism 7 days post-weaning, with decreased (P < 0.05) creatine, creatinine and β-hydroxybutyrate. Alterations in bile-associated metabolites and cholic acid were also observed at the same time-point (P < 0.05), suggesting MCOA increased bile acid production and secretion. Increased cholic acid was accompanied by increased tryptophan metabolites including indole-3-propionic acid (IPA) in systemic circulation (P = 0.004). An accompanying tendency toward increased Lactobacillus sp. in the small intestine was observed (P = 0.05). Many lactobacilli have bile acid tolerance mechanisms and contribute to production of IPA, suggesting increased bile acid production resulted in increased abundance of lactobacilli capable of tryptophan fermentation. Tryptophan metabolism is associated with the mature pig microbiota and many tryptophan metabolites such as IPA are considered beneficial to gut barrier function. In conclusion, MCOA may help maintain tissue metabolism and aid in microbiota re-assembly through bile acid production and secretion. [ABSTRACT FROM AUTHOR]

Published

2023

93. Self-Association of the Anion of 7-Oxodeoxycholic Acid (Bile Salt): How Secondary Micelles Are Formed.

Author

Poša, Mihalj

Subjects

*BILE salts, *MICELLES, *SPIN-lattice relaxation, *CHOLIC acid, *HYDROPHOBIC interactions, *FARNESOID X receptor

Abstract

Bile acid anions are steroidal biosurfactants that form primary micelles due to the hydrophobic effect. At higher concentrations of some bile acid anions, secondary micelles are formed; hydrogen bonds connect primary micelles. Monoketo derivatives of cholic acid, which have reduced membrane toxicity, are important for biopharmaceutical examinations. The main goal is to explain why the processes of formation of primary and secondary micelles are separated from each other, i.e., why secondary micelles do not form parallel to primary micelles. The association of the anion of 7-oxodeoxycholic acid (a monoketo derivative of cholic acid) is observed through the dependence of the spin–lattice relaxation time on total surfactant concentration T1 = f(CT). On the function T1 = f(CT), two sharp jumps of the spin–lattice relaxation time are obtained, i.e., two critical micellar concentrations (CMC). The aggregation number of the micelle at 50 mM total concentration of 7-oxodeoxycholic acid anions in the aqueous solution is 4.2 ± 0.3, while at the total concentration of 100 mM the aggregation number is 9.0 ± 0.9. The aggregation number of the micelle changes abruptly in the concentration interval of 80–90 mM (the aggregation number determined using fluorescence measurements). By applying Le Chatelier's principle, the new mechanism of formation of secondary micelles is given, and the decoupling of the process of formation of primary and secondary micelles at lower concentrations of monomers (around the first critical micellar concentration) and the coupling of the same processes at higher equilibrium concentrations of monomers (around the second critical micellar concentration) is explained. Stereochemically and thermodynamically, a direct mutual association of primary micelles is less likely, but monomeric units are more likely to be attached to primary micelles, i.e., 7-oxodeoxycholic acid anions. [ABSTRACT FROM AUTHOR]

Published

2023

94. Steroid‐Hymecromone Conjugates with Improved Antiproliferative and Antimicrobial Potential: Synthesis, Biological Evaluation, and in silico ADME Prediction.

Author

Erdagi, Sevinc Ilkar

Subjects

*CIPROFLOXACIN, *DRUG standards, *STRUCTURE-activity relationships, *CHOLIC acid, *DIOSGENIN, *THERAPEUTICS

Abstract

In this study, hymecromone with known therapeutic aspects was conjugated with steroids a class of natural products that widely exhibited broad biological functions. Cholic acid, diosgenin, cholesterol, DHEA, and testosterone were selected as steroid moiety, each of which has a different biological mechanism of action. This study focused on developing novel conjugates that can be used as multi‐targeted drugs for treating various diseases. All conjugates were evaluated in vitro for their antiproliferative and antimicrobial activities and discussed for the structure‐activity relationship. The conjugates 5 and 6 exhibited comparable cytotoxic effects to reference drugs against cancer cell lines (K562, MCF‐7, and HeLa) while showing no toxicity against healthy cells (L929). Conjugates 7 and 5 demonstrated antibacterial activity against Gram‐positive and Gram‐negative bacteria, with lower minimum inhibitory concentration (MIC) values than the standard ciprofloxacin drug. Conjugate 6, On the other hand, had the lowest MIC value against the fungus, comparable to that of the standard drug ketoconazole. The physicochemical and pharmacokinetic properties of conjugates were in silico computed and evaluated. Overall, the outputs of this study suggest that these conjugates have promising potential as therapeutic agents, offering a multi‐targeted approach for the treatment of various diseases. [ABSTRACT FROM AUTHOR]

Published

2023

95. 基于UPLC-QqQ-MS/MS探究人参属中药对甲亢大鼠胆汁酸成分代谢影响.

Author

刘琳琳, 金墨竹, and 窦德强

Subjects

*CHOLIC acid, *DEOXYCHOLIC acid, *TANDEM mass spectrometry, *PRINCIPAL components analysis, *CHENODEOXYCHOLIC acid, *QUADRUPOLE ion trap mass spectrometry, *BILE acids, *FORMIC acid

Abstract

A method of ultra-performance liquid chromatography-triple quadrupole tandem mass spectrometry (UPLC-QqQ-MS/MS) was developed to determine the contents of deoxycholic acid, chenodeoxycholic acid, hyodeoxycholic acid, cholic acid, glycinecholic acid, taurocholic acid, tauroporic deoxycholic acid, taurocholic acid in the serum of rats with hyperthyroidism and each administration group. The separation of compounds was carried out on an Agilent zorbax SB-C18 column (100 mm×2.1 mm×1.8 μm). The mobile phase was 0.1% formic acid in acetonitrile and 0.1% formic acid in the water, the flow rate was 0.4 mL/min, the injection volume was 5 μL. The mass spectrometry was determined by electrospray ionization in negative ion mode, and was scanned by multiple response monitoring mode. The ion scanning range was m/z 50-1 000, with a capillary voltage of 3.5 kV, ion source temperature of 150 ℃, atomization gas flow rate of 50 L/h, desolvation gas flow rate of 800 L/h, desolvation temperature of 250 ℃. Multivariate analysis method of principal component analysis (PCA) was used to analyze the content of bile acids in each group, which identified the nature of ginseng and biomarkers of bile acids that regulated the cold and hot nature of ginseng. Spearman was used to analyze the correlation between bile acid level and thyroid function. The results showed that the calibration curves of 8 bile acids were linear in the quantitative range. The average recoveries of bile acid isotopes ranged from 82.71% to 104.05% and the coefficients of variation were all less than 15%. Compared with the blank control group, the contents of deoxycholic acid, goose deoxycholic acid, porcine deoxycholic acid, and cholic acid in the serum of hyperthyroidism rats decreased, and the content of primary bile acid-cholic acid increased after administration of Phellodendrina chinense and ginseng leaves. The cholic acid, deoxycholic acid, and goose deoxycholic acid can be used as the biomarkers for regulating bile acids in cold and cool nature herbs, and glycine cholic acid, deoxycholic acid, and taurocholic acid can be used as the biomarkers for regulating bile acids in warm nature herbs. The level of thyroxine (T4) was negatively correlated with deoxycholic acid. The level of tri-iodothyronine (T3) was negatively correlated with porcine deoxycholic acid, glycine cholic acid, taurocholic acid, taurocholic acid, and taurocholic acid. The UPLC-QqQ-MS/MS method has the advantages of simple operation, high sensitivity, and strong multiplexing detection capability, which can be used to determine the content of serum bile acid. The abnormal level of bile acid is associated with thyroid hormone to a certain extent. [ABSTRACT FROM AUTHOR]

Published

2023

96. Fat digestion and metabolism: effect of different fat sources and fat mobilisers in broilers' diet on growth performance and physiological parameters – A review.

Author

Shoaib, Muhammad, Bhatti, Shaukat Ali, Ashraf, Shahzad, Hamid, Muhammad Mahboob Ali, Najam-us-Sahar, Javed, Muhammad Mansoor, Amir, Shafaq, Aslam, Noreen, Roobi, Alishbah, Iqbal, Hafiz Hassan, Asif, Muhammad Arslan, Nazir, Usman, and Saif-ur-Rehman, Muhammad

Subjects

*FREE fatty acids, *FAT, *LIPASES, *FATS & oils, *UNSATURATED fatty acids, *CHOLIC acid, *FISH oils

Abstract

Commercial broilers have a short production cycle and a high requirement for energy (3000 kcal/kg in starter phase and 3200 kcal/kg in finisher phase). Therefore, the need to add energy rich lipids to their diet is inevitable. Digestibility of fat depends on its multiple properties: chain length, the composition of fatty acids, ratio of saturated/unsaturated fatty acids and free fatty acids. The high cost of vegetable oils and less availability due to their consumption in human diet are the main reasons for searching for cheaper alternative fat sources. Animal oils like poultry and fish oil are the by-product of rendering plants and after refining, they are used in poultry diets as an energy source. Due to presence of impurities and free fatty acids, the digestibility of animal fat is lower. There is a limited amount of bile acids and lipase available during early age and when birds are reared on high energy diet (finisher phase). Supplementation of emulsifier or lipase in broilers' diet increase fat utilisation. Emulsifiers increase fat digestibility by increasing active surface area of lipid droplets. Lysolecithin and lysophospholipids are produced from hydrolyses of lecithin and phospholipids by phopholipase A2. The bile acids are mainly composed of cholic acid, hyodeoxycholic acid and chenodeoxycholic acid and have strong emulsification properties. Triacylglyceryl acylase (lipase) is an enzyme involved in catalysis and the hydrolysis of lipids. It can be concluded that use of emulsifier and lipase in broiler diet improves growth performance, nutrient digestibility and intestinal histology in broilers. [ABSTRACT FROM AUTHOR]

Published

2023

97. Capsaicin Regulates Glucose Metabolism in Rats Fed with Dietary Fiber by Regulating Microbiota-Short Chain Fatty Acids.

Author

TING GONG, HAIZHU WANG, JINCAN LEI, LINGQUN JIANG, and MING YUAN

Subjects

*HIGH-fiber diet, *DIETARY fiber, *FATTY acids, *SHORT-chain fatty acids, *GLUCOSE metabolism, *CHOLIC acid, *BUTYRIC acid, *BILE acids

Abstract

Capsaicin and dietary fiber are effective natural food ingredients to control the obesity and metabolic diseases. The aim of the present study was to investigate the improved anti-obesity effects by adding capsaicin to a high-fiber diet. Sprague-Dawley rats were fed with high fiber diet, and different doses of capsaicin. Plasma parameters, gut microbiota, bile acid and short-chain fatty acids were analyzed to detect the improved effects and possible mechanisms. The results showed that the addition of capsaicin further decreased the fasting blood glucose and insulin, and increased beta-muricholic acid, deoxycholic acid, chenodeoxycholic acid, and 3 beta-ursodeoxycholic acid when compared to only high fiber diet. Administration of 0.05 g/kg capsaicin showed the highest of tauro-alpha-muricholic acid sodium salt and tauro-beta-muricholic acid sodium salt and 0.1 g/kg capsaicin resulted in the highest of lithocholic acid, cholic acid and hyodeoxycholic acid. Capsaicin increased the abundance of microorganisms including Akkermansia, Allobaculum et al. and increased the short-chain fatty acids, especially acetic acid and butyric acid. Results from our study indicated that the addition of capsaicin have better effects to reduce the weight, insulin and fasting blood glucose, and the possibly mechanism can be due to the changes in bile acid composition, microbial abundance and shortchain fatty acids. [ABSTRACT FROM AUTHOR]

Published

2023

98. Sorption of bile salts from aqueous solutions by MCM-41 silica with chemically immobilized steroid groups.

Author

Roik, Nadiia V., Belyakova, Lyudmila A., and Dziazko, Marina O.

Subjects

SALTWATER solutions, BILE salts, SILICA films, MESOPOROUS silica, SORPTION, SODIUM cholate, CHOLIC acid, MESOPOROUS materials

Abstract

Mesoporous silicas of MCM-41 type with surface 3-aminopropyl and steroid groups were prepared by one-pot sol–gel synthesis in the presence of template. Structural parameters of synthesized materials were estimated using low-temperature nitrogen adsorption–desorption and X-ray diffraction analysis. It was found that introduction of cholic acid as co-template or its triethoxysilyl derivative as structure-forming agent in sol–gel synthetic mixture has positive impact on formation of hexagonally ordered mesoporous structure of MCM-41-type silicas and results in increase of surface area and narrowing of pores. The efficiency of synthesized silica materials in sorption removal of sodium cholate and taurocholate was studied from phosphate buffer solutions in dependence of duration of contact, solution pH, and adsorbate equilibrium concentration. It was found that maximal values of bile salts sorption are reached at pH ~ 5 for sodium cholate and at pH ~ 2 for sodium taurocholate after several hours of contact. Analysis of experimental sorption isotherms by the Langmuir, Freundlich, Redlich–Peterson, and BET models evidences multilayer character of bile salts sorption on MSNs. Noticeable increase of sodium cholate and taurocholate equilibrium sorption on silica material with chemically immobilized steroid groups in the region of small equilibrium concentrations at pH 5 as well as improved sorption ability at high equilibrium concentrations at pH 5 and pH 7 in comparison with parent aminosilica proves its potential efficiency in hypercholesterolemia diagnostics and treatment. [ABSTRACT FROM AUTHOR]

Published

2023

99. Global chemical effects of the microbiome include new bile-acid conjugations

Author

Quinn, Robert A, Melnik, Alexey V, Vrbanac, Alison, Fu, Ting, Patras, Kathryn A, Christy, Mitchell P, Bodai, Zsolt, Belda-Ferre, Pedro, Tripathi, Anupriya, Chung, Lawton K, Downes, Michael, Welch, Ryan D, Quinn, Melissa, Humphrey, Greg, Panitchpakdi, Morgan, Weldon, Kelly C, Aksenov, Alexander, da Silva, Ricardo, Avila-Pacheco, Julian, Clish, Clary, Bae, Sena, Mallick, Himel, Franzosa, Eric A, Lloyd-Price, Jason, Bussell, Robert, Thron, Taren, Nelson, Andrew T, Wang, Mingxun, Leszczynski, Eric, Vargas, Fernando, Gauglitz, Julia M, Meehan, Michael J, Gentry, Emily, Arthur, Timothy D, Komor, Alexis C, Poulsen, Orit, Boland, Brigid S, Chang, John T, Sandborn, William J, Lim, Meerana, Garg, Neha, Lumeng, Julie C, Xavier, Ramnik J, Kazmierczak, Barbara I, Jain, Ruchi, Egan, Marie, Rhee, Kyung E, Ferguson, David, Raffatellu, Manuela, Vlamakis, Hera, Haddad, Gabriel G, Siegel, Dionicio, Huttenhower, Curtis, Mazmanian, Sarkis K, Evans, Ronald M, Nizet, Victor, Knight, Rob, and Dorrestein, Pieter C

Subjects

Biological Sciences, Biomedical and Clinical Sciences, Chemical Sciences, Microbiology, Medical Biochemistry and Metabolomics, Genetics, Digestive Diseases, Aetiology, 2.1 Biological and endogenous factors, Oral and gastrointestinal, Animals, Bile Acids and Salts, Cholic Acid, Cystic Fibrosis, Germ-Free Life, Humans, Inflammatory Bowel Diseases, Metabolomics, Mice, Microbiota, Receptors, Cytoplasmic and Nuclear, General Science & Technology

Abstract

A mosaic of cross-phylum chemical interactions occurs between all metazoans and their microbiomes. A number of molecular families that are known to be produced by the microbiome have a marked effect on the balance between health and disease1-9. Considering the diversity of the human microbiome (which numbers over 40,000 operational taxonomic units10), the effect of the microbiome on the chemistry of an entire animal remains underexplored. Here we use mass spectrometry informatics and data visualization approaches11-13 to provide an assessment of the effects of the microbiome on the chemistry of an entire mammal by comparing metabolomics data from germ-free and specific-pathogen-free mice. We found that the microbiota affects the chemistry of all organs. This included the amino acid conjugations of host bile acids that were used to produce phenylalanocholic acid, tyrosocholic acid and leucocholic acid, which have not previously been characterized despite extensive research on bile-acid chemistry14. These bile-acid conjugates were also found in humans, and were enriched in patients with inflammatory bowel disease or cystic fibrosis. These compounds agonized the farnesoid X receptor in vitro, and mice gavaged with the compounds showed reduced expression of bile-acid synthesis genes in vivo. Further studies are required to confirm whether these compounds have a physiological role in the host, and whether they contribute to gut diseases that are associated with microbiome dysbiosis.

Published

2020

100. Intestinal epithelium penetration of liraglutide via cholic acid pre-complexation and zein/rhamnolipids nanocomposite delivery

Author

Xiaoyan Bao, Kang Qian, Mengjiao Xu, Yi Chen, Hao Wang, Ting Pan, Zhengyi Wang, Ping Yao, and Li Lin

Subjects

Oral, Liraglutide, Cholic acid, Rhamnolipids, Type 2 diabetes, Biotechnology, TP248.13-248.65, Medical technology, R855-855.5

Abstract

Abstract Background Oral administration offered a painless way and improved compliance for diabetics. However, the emerging GLP-1 analog peptide drugs for diabetes primarily rely on the injection route, and the development of oral dosage forms was hampered by the low oral bioavailability due to the structural vulnerability to digestive enzymes and molecule impermeability in the gastrointestinal tract. Results In this study, the non-covalent interaction between cholic acid (CA) and liraglutide (LIRA) was found and theoretically explained by molecular docking simulation. Formation of this physical complex of liraglutide and cholic acid (LIRA/CA Complex) reduced the self-aggregation of LIRA and accelerated intestinal epithelium penetration. By the anti-solvent method, LIRA/CA Complex was loaded into zein/rhamnolipids nanoparticles (LIRA/CA@Zein/RLs) with a loading efficiency of 76.8%. LIRA was protected from fast enzymatic degradation by the hydrophobic zein component. Meanwhile, Rhamnolipids, a glycolipid with surface activity, promoted endocytosis while also stabilizing the nanoparticles. The two components worked synergistically to ensure the delivery of LIRA/CA Complex to intestinal villi and improved oral absorption without disrupting tight junctions. LIRA/CA@Zein/RLs demonstrated a considerable intestinal epithelium absorption in mouse gastrointestinal section and a retention in vivo over 24 h, resulting in a significant and long-lasting hypoglycemic effect in Type 2 diabetes mice. Conclusion This study provided a promising oral delivery approach for LIRA and exhibited the potential for further translation into clinical application.

Published

2023