Banny S. Wong

Increased Bile Acid Biosynthesis Is Associated With Irritable Bowel Syndrome With Diarrhea

BACKGROUND & AIMS Variations in genes that regulate bile acid (BA) synthesis are associated with colonic transit in patients with irritable bowel syndrome (IBS). We investigated features of BA synthesis and excretion and genetic features of patients with different types of IBS. METHODS In 26 healthy volunteers, 26 patients with IBS and constipation (IBS-C), and 26 with IBS and diarrhea (IBS-D), we measured serum levels of 7α-hydroxy-4-cholesten-3-one (C4; a surrogate for BA synthesis) and fibroblast growth factor (FGF) 19 (an ileal hormone that downregulates BA synthesis). For stool samples, we measured concentration of BA, weight, and amount of fat when participants were given high-fat diets. Spearman correlations were used to explore relationships among factors. We analyzed 1 polymorphism in Klotho-β (KLB) and 3 in fibroblast growth factor receptor-4 (FGFR4) for all members of each group using analysis of covariance. RESULTS The concentration of BA in stool was associated with group (for a comparison of 3 groups; P = .057); it was higher in patients with IBS-D than IBS-C (P = .017). The serum level of C4 was higher in patients with IBS-D than IBS-C (P = .02) or healthy volunteers (P = .01); 38% of patients with IBS-D had increased serum levels of C4, compared with healthy volunteers. Serum level of C4 correlated with stool concentration of BA (rs = 0.606; P < .001), serum FGF19 (rs = -0.324; P = .007), and stool weight (rs = 0.366; P = .003). Stool concentration of BA correlated with weight (rs = 0.737; P < .001) and level of fat (rs = 0.528; P < .001). Body mass index correlated with serum level of C4 (rs = 0.423, P < .001) and stool concentration of BA (rs = 0.507, P < .001), and was higher in patients with IBS-D compared with other groups (overall P = .036). FGFR4 rs1966265 was associated with stool level of BA (P = .032). CONCLUSIONS Patients with IBS-D have greater body mass index and synthesize and excrete higher levels of BA than individuals with IBS-C or healthy volunteers. Serum levels of C4 might be used to identify patients with IBS-D who have BA malabsorption; studies are needed to determine if some patients have a genetic predisposition to this disorder.

Chenodeoxycholate in Females With Irritable Bowel Syndrome-Constipation: A Pharmacodynamic and Pharmacogenetic Analysis

BACKGROUND & AIMS Sodium chenodeoxycholate (CDC) accelerates colonic transit in health. Our aim was to examine pharmacodynamics (colonic transit, bowel function) and pharmacogenetics of CDC in constipation-predominant irritable bowel syndrome (IBS-C). METHODS In a double-blind placebo-controlled study, 36 female patients with IBS-C were randomized to treatment with delayed-release oral formulations of placebo, 500 mg CDC, or 1000 mg CDC for 4 days. We assessed gastrointestinal and colonic transit, stool characteristics, and associations of transit with fasting serum 7αC4 (surrogate of bile acid synthesis) and FGF19 (negative regulator of bile acid synthesis) levels. Candidate genetic polymorphisms involved in regulation of bile acid synthesis were analyzed in the 36 patients with IBS-C and 57 healthy volunteers to assess genetic influence on effects of CDC on transit. RESULTS Overall colonic transit and ascending colon emptying (AC t(½)) were significantly accelerated in the CDC group compared with placebo (P = .005 and P = .028, respectively). Looser stool consistency (P = .003), increased stool frequency (P = .018), and greater ease of passage (P = .024) were noted with CDC compared with placebo. The most common side effect was lower abdominal cramping/pain (P = .01). Fasting serum 7αC4 (but not FGF19) was positively associated with colonic transit (r(s) = 0.749, P = .003, placebo group). Genetic variation in FGFR4 was associated with AC t(½) in response to CDC (uncorrected P = .015); αKlothoβ variant showed a gene-by-treatment interaction based on patient subgroup (uncorrected P = .0088). CONCLUSIONS CDC accelerates colonic transit and improves bowel function in female patients with IBS-C. The rate of bile acid synthesis influences colonic transit. Genetic variation in negative feedback inhibition of bile acid synthesis may affect CDC-mediated acceleration of colonic transit.

Lower functional gastrointestinal disorders: evidence of abnormal colonic transit in a 287 patient cohort.

Background  Abnormalities of colonic motility were reported in relatively small studies of patients with lower functional gastrointestinal disorders (FGID) including irritable bowel syndrome (IBS). The influence of gender and body mass on the observed motor pathophysiology is unclear. We sought to compare colonic transit in patients within different lower FGID subgroups and healthy controls, controlling for gender and BMI, and to determine whether BMI independently influences colonic motility.

Effects of A3309, an ileal bile acid transporter inhibitor, on colonic transit and symptoms in females with functional constipation.

OBJECTIVES:Delivery of bile acid (BA) to the colon stimulates propulsive motility and fluid secretion. The objective of this study was to examine gastrointestinal (GI) transit effects of A3309, a small molecule inhibitor of the ileal BA transporter, in patients with functional constipation (FC).METHODS:In a double-blind, placebo-controlled study of 36 female FC patients randomized to placebo, 15 mg A3309, or 20 mg A3309 administered orally once daily for 14 consecutive days, we assessed GI and colonic transit, stool characteristics, symptoms of constipation, fasting serum C4 (7α-hydroxy-4-cholesten-3-one) (surrogate of BA synthesis and malabsorption), and fasting serum total and low-density lipoprotein (LDL) cholesterol (surrogates of inhibition of BA absorption). Following the intention-to-treat paradigm, we used analysis of covariance to assess the overall treatment effects and Dunnetts test for pairwise comparisons.RESULTS:Overall colonic transit (geometric center at 24 h) was significantly accelerated with 20 mg A3309 compared with placebo (overall effect, P=0.059; A3309 15 mg, P=0.18; and A3309 20 mg, P=0.04). Colonic transit at 48 h was significantly accelerated with both A3309 dosages (overall effect, P<0.001; A3309 15 mg, P=0.002; and A3309 20 mg, P<0.001). Significantly looser stool consistency was noted with both A3309 dosages compared with placebo (P<0.005). Significant effects of A3309 on constipation rating, ease of stool passage, and reduction of straining were also detected. The most common side effect was lower abdominal cramping/pain. A3309 treatment significantly and reversibly increased fasting C4 (A3309 15 mg, P=0.05; A3309 20 mg, P<0.01) but did not affect fasting total and LDL cholesterol.CONCLUSIONS:A3309 accelerates colonic transit and loosens stool consistency in FC patients.

Effect of daikenchuto (TU-100) on gastrointestinal and colonic transit in humans.

Daikenchuto (TU-100) is a traditional Japanese (Kampo) medicine used to treat postoperative ileus. TU-100 dose dependently increases gastrointestinal (GI) motility by modulating cholinergic and serotonergic mechanisms in animal studies. The aim of this study was to evaluate the effects of orally administered TU-100 on GI and colonic transit and bowel function in healthy humans. In a randomized, parallel-group, double-blind, placebo-controlled, dose-response study, 60 healthy subjects were randomly assigned to placebo or TU-100 2.5 g or 5 g tid ingested immediately before meals for 5 consecutive days. We measured GI and colonic transit by validated scintigraphy and stool frequency and consistency by daily diaries of bowel function. There were overall treatment effects on colonic filling at 6 h without any significant differences between each dose of TU-100 and placebo. There tended to be overall treatment effects on ascending colon (AC) emptying half-time; the TU-100 (7.5 g/day) treatment significantly accelerated AC emptying compared with placebo. There were numerically higher values of GC24 (which reflect overall colonic transit) with both doses of TU-100, but these changes were not statistically significant. There were no significant overall treatment effects on gastric emptying or stool frequency and consistency. One subject, who received 7.5 g/day of TU-100, had elevated creatine phosphokinase following the study. TU-100 (7.5 g/day) significantly accelerated AC emptying. Further randomized controlled trials in patients with functional constipation or irritable bowel syndrome with constipation are warranted to evaluate the clinical efficacy of TU-100 in these disorders.

Urine sugars for in vivo gut permeability: validation and comparisons in irritable bowel syndrome-diarrhea and controls

Mucosal barrier dysfunction contributes to gastrointestinal diseases. Our aims were to validate urine sugar excretion as an in vivo test of small bowel (SB) and colonic permeability and to compare permeability in patients with irritable bowel syndrome-diarrhea (IBS-D) to positive and negative controls. Oral lactulose (L) and mannitol (M) were administered with (99m)Tc-oral solution, (111)In-oral delayed-release capsule, or directly into the ascending colon (only in healthy controls). We compared L and M excretion in urine collections at specific times in 12 patients with IBS-D, 12 healthy controls, and 10 patients with inactive or treated ulcerative or microscopic colitis (UC/MC). Sugars were measured by high-performance liquid chromatography-tandem mass spectrometry. Primary endpoints were cumulative 0-2-h, 2-8-h, and 8-24-h urinary sugars. Radioisotopes in the colon at 2 h and 8 h were measured by scintigraphy. Kruskal-Wallis and Wilcoxon tests were used to assess the overall and pairwise associations, respectively, between group and urinary sugars. The liquid in the colon at 2 h and 8 h was as follows: health, 62 ± 9% and 89 ± 3%; IBS-D, 56 ± 11% and 90 ± 3%; and UC/MC, 35 ± 8% and 78 ± 6%, respectively. Liquid formulation was associated with higher M excretion compared with capsule formulation at 0-2 h (health P = 0.049; IBS-D P < 0.001) but not during 8-24 h. UC/MC was associated with increased urine L and M excretion compared with health (but not to IBS-D) at 8-24 h, not at 0-2 h. There were significant differences between IBS-D and health in urine M excretion at 0-2 h and 2-8 h and L excretion at 8-24 h. Urine sugars at 0-2 h and 8-24 h reflect SB and colonic permeability, respectively. IBS-D is associated with increased SB and colonic mucosal permeability.

New-generation 5-HT4 receptor agonists: potential for treatment of gastrointestinal motility disorders

Importance of the field: Gastrointestinal (GI) dysmotility is an important mechanism in functional GI disorders (FGIDs) including constipation, irritable bowel syndrome, functional dyspepsia, and gastroparesis. 5-hydroxytryptamine4 (5-HT4) receptors are targets for the treatment of GI motility disorders. However, older 5-HT4 receptor agonists had limited clinical success because they were associated with changes in the function of the cardiac HERG potassium channel. Areas covered in this review: We conducted a PubMed search using the following key words alone or in combination: 5-HT4, safety, toxicity, pharmacokinetics, pharmacodynamics, clinical trial, cardiac, hERG, arrhythmia, potassium current, elderly, prucalopride, ATI-7505, and velusetrag (TD-5108), to review mechanisms of action, clinical efficacy, safety and tolerability of three new-generation 5-HT4 receptor agonists. What the reader will gain: Prucalopride, ATI-7505, and velusetrag (TD-5108) are highly selective, high-affinity 5-HT4 receptor agonists that are devoid of action on other receptors within their therapeutic range. Their efficacy has been demonstrated in pharmacodynamic studies which demonstrate acceleration of colonic transit and, to a variable degree, in clinical trials that significantly relieve chronic constipation. Currently available evidence shows that the new 5-HT4 receptor agonists have safe cardiac profiles. Take home message: New-generation 5-HT4 receptor agonists and future drugs targeting organ-specific splice variants are promising approaches to treat GI dysmotility, particularly colonic diseases.

Pharmacogenetic Trial of a Cannabinoid Agonist Shows Reduced Fasting Colonic Motility in Patients With Nonconstipated Irritable Bowel Syndrome

BACKGROUND & AIMS Cannabinoid receptors are located on cholinergic neurons. Genetic variants that affect endocannabinoid metabolism are associated with colonic transit in patients with irritable bowel syndrome (IBS) with diarrhea. We compared the effects of dronabinol, a nonselective agonist of the cannabinoid receptor, with those of placebo on colonic motility and sensation in patients with IBS, and examined the effects of IBS subtype and specific genetic variants in cannabinoid mechanisms. METHODS Seventy-five individuals with IBS (35 with IBS with constipation, 35 with IBS with diarrhea, and with 5 IBS alternating) were randomly assigned to groups that were given 1 dose of placebo or 2.5 mg or 5.0 mg dronabinol. We assessed left colonic compliance, motility index (MI), tone, and sensation during fasting and after a meal. We analyzed the single nucleotide polymorphisms CNR1 rs806378, fatty acid amide hydrolase (FAAH) rs324420, and MGLL rs4881. RESULTS In all patients, dronabinol decreased fasting proximal left colonic MI compared with placebo (overall P = .05; for 5 mg dronabinol, P = .046), decreased fasting distal left colonic MI (overall P = .08; for 5 mg, P = .13), and increased colonic compliance (P = .058). The effects of dronabinol were greatest in patients with IBS with diarrhea or IBS alternating (proximal colonic MI, overall P = .022; compliance, overall P = .03). Dronabinol did not alter sensation or tone. CNR1 rs806378 (CC vs CT/TT) appeared to affect fasting proximal MI in all patients with IBS (P = .075). Dronabinol affected fasting distal MI in patients, regardless of FAAH rs324420 variant (CA/AA vs CC) (P = .046); the greatest effects were observed among IBS with constipation patients with the FAAH CC variant (P = .045). Dronabinol affected fasting proximal MI in patients with IBS with diarrhea or alternating with the variant FAAH CA/AA (P = .013). CONCLUSIONS In patients with IBS with diarrhea or alternating, dronabinol reduces fasting colonic motility; FAAH and CNR1 variants could influence the effects of this drug on colonic motility.

A Klothoβ variant mediates protein stability and associates with colon transit in irritable bowel syndrome with diarrhea.

BACKGROUND & AIMS Bile acid (BA) malabsorption of moderate severity is reported in 32% of patients with chronic unexplained diarrhea, including diarrhea-predominant irritable bowel syndrome (IBS-D). We hypothesized that variants of genes regulating hepatic BA synthesis play a role in IBS-D. METHODS In 435 IBS and 279 healthy subjects, we tested individual associations of 15 common single nucleotide polymorphisms (SNPs) from 7 genes critical to BA homeostasis with symptom-based subgroups using dominant genetic models. In a subset of 238 participants, we tested association with colonic transit. SNP-SNP interactions were investigated based on known protein interactions in BA homeostasis. The function of SNP rs17618244 in Klothoβ (KLB) was evaluated using a protein stability assay in HEK293 cells. RESULTS SNP rs17618244 (Arg728Gln in KLB) is associated with colonic transit at 24 hours. G allele (Arg728) compared with A allele (Gln728) is associated with accelerated colonic transit (P=.0007) in the overall cohort; this association was restricted to IBS-D (P=.0018). Interaction tests of KLB rs17618244 with 3 nonsynonymous SNPs of fibroblast growth factor receptor 4 (FGFR4) revealed that rs1966265 (Val10Ile) and rs351855 (Gly388Arg) modulate rs1768244s association with colonic transit in IBS-D (P=.0025 and P=.0023, respectively). KLB Arg728 significantly reduced protein stability compared with KLB Gln728, demonstrating KLB rs17618244s functional significance. No significant associations with symptom-based subgroups of IBS were detected. CONCLUSIONS A functional KLB gene variant mediating protein stability associates with colonic transit in IBS-D. This association is modulated by 2 genetic variants in FGFR4. The FGF19-FGFR4-KLB pathway links regulation of BA synthesis to colonic transit in IBS-D.

Randomized Pharmacodynamic and Pharmacogenetic Trial of Dronabinol Effects on Colon Transit in Irritable Bowel Syndrome-Diarrhea

Background  Genetic variation in endocannabinoid metabolism is associated with colonic transit in irritable bowel syndrome (IBS) with diarrhea (IBS‐D). The nonselective cannabinoid (CB) receptor agonist, dronabinol (DRO), reduced fasting colonic motility in nonconstipated IBS. FAAH and CNR1 variants influenced DRO’s effects on colonic motility. Our aims were: (i) to compare dose‐related effects of DRO to placebo (PLA) on gut transit in IBS‐D, and (ii) to examine influence of genetic variations in CB mechanisms on DRO’s transit effects.