Salivary Calprotectin Is not a Useful Biomarker to Monitor Disease Activity in Patients with Inflammatory Bowel Disease.

BACKGROUND AND AIMS: Non-invasive biomarkers are gaining interest for monitoring disease activity in patients with inflammatory bowel diseases (IBD). Fecal calprotectin is a reliable biomarker but patients often report the collection of feces being unpleasant and cumbersome. In this study, we aimed to assess if salivary calprotectin could be used as a non-invasive biomarker to determine disease activity instead of fecal calprotectin. METHODS: In this cross-sectional explorative cohort study, stimulated saliva was collected from patients with an established IBD diagnosis and healthy controls. The concentration of calprotectin in saliva was determined by a particle-enhanced turbidimetric immunoassay. Intestinal disease activity was assessed with fecal calprotectin levels and the Harvey-Bradshaw Index (HBI) or Simple Clinical Colitis Activity Index (SCCAI). Missing data were handled using multiple imputation. RESULTS: Sixty-three patients (41 Crohn's disease and 22 ulcerative colitis) and 11 controls were included. Patients had a mean fecal calprotectin of 138.78 µg/g and a median salivary calprotectin of 1.87 mg/L. No significant correlation was found between salivary calprotectin and fecal calprotectin levels (p=0.495). When patients were stratified in two subgroups based on a fecal calprotectin cut-off value of 250 µg/g, there were no significant differences in salivary calprotectin levels between both patient groups (p=0.641) and between patients and healthy controls (p=0.248). Also, salivary, and fecal calprotectin levels were not significantly different when stratifying patients in two subgroups, active disease and remission, using HBI/SCCAI scores. CONCLUSIONS: Salivary calprotectin does not correlate to fecal calprotectin and disease activity scores in patients, making it unreliable for assessing IBD activity.

Thioguanine Therapy in Inflammatory Bowel Diseases. A Practical Guide.

Thiopurine-derivates azathioprine and mercaptopurine are frequently used to maintain remission in inflammatory bowel diseases (IBD). Despite their efficacy, more than 50% of patients discontinue therapy, mainly due to the development of adverse events. Thioguanine is an alternative thiopurine and has been conditionally licensed in The Netherlands as IBD treatment for patients after conventional thiopurine therapy failure. In this review we will provide practical information on initiating and maintaining thioguanine therapy in IBD and provide information concerning safety issues and future perspectives. The thioguanine toxicity profile is relatively mild and the reported incidence of nodular regenerative hyperplasia related to thioguanine use seems comparable to conventional thiopurines and the background incidence in IBD patients. Routine monitoring of laboratory parameters and adverse events is recommended, comparable to the monitoring of patients on conventional thiopurine therapy.

Radiosynthesis and preclinical evaluation of [11C]prucalopride as a potential agonist PET ligand for the 5-HT4 receptor.

BACKGROUND: Serotonin 5-HT4 receptor (5-HT4-R) agonists are potential therapeutic agents for enterokinetic and cognitive disorders and are marketed for treatment of constipation. The aim of this study was to develop an agonist positron emission tomography (PET) ligand in order to label the active G-protein coupled 5-HT4-R in peripheral and central tissues. For this purpose prucalopride, a high-affinity selective 5-HT4-R agonist, was selected. METHODS: [11C]Prucalopride was synthesized from [11C]methyl triflate and desmethyl prucalopride, and its LogDoct,pH7.4 was determined. Three distinct studies were performed with administration of IV [11C]prucalopride in male rats: (1) The biodistribution of radioactivity was measured ex vivo; (2) the kinetics of radioactivity levels in brain regions and peripheral organs was assessed in vivo under baseline conditions and following pre-treatment with tariquidar, a P-glycoprotein efflux pump inhibitor; and (3) in vivo stability of [11C]prucalopride was checked ex vivo in plasma and brain extracts using high-performance liquid chromatography. RESULTS: [11C]Prucalopride was synthesized in optimised conditions with a yield of 21% ± 4% (decay corrected) and a radiochemical purity (>99%), its LogDoct,pH7.4 was 0.87. Ex vivo biodistribution studies with [11C]prucalopride in rats showed very low levels of radioactivity in brain (maximal 0.13% ID·g-1) and ten times higher levels in certain peripheral tissues. The PET studies confirmed very low brain levels of radioactivity under baseline conditions; however, it was increased three times after pre-treatment with tariquidar. [11C]Prucalopride was found to be very rapidly metabolised in rats, with no parent compound detectable in plasma and brain extracts at 5 and 30 min following IV administration. Analysis of levels of radioactivity in peripheral tissues revealed a distinct PET signal in the caecum, which was reduced following tariquidar pre-treatment. The latter is in line with the role of the P-glycoprotein pump in the gut. CONCLUSION: [11C]Prucalopride demonstrated low radioactivity levels in rat brain; a combination of reasons may include rapid metabolism in the rat in particular, low passive diffusion and potential P-glycoprotein substrate. In humans, further investigation of [11C]prucalopride for imaging the active state of 5-HT4-R is worthwhile, in view of the therapeutic applications of 5-HT4 agonists for treatment of gastrointestinal motility disorders.

[11C]AF150(S), an agonist PET ligand for M1 muscarinic acetylcholine receptors.

BACKGROUND: The M1 muscarinic acetylcholine receptor (M1ACh-R) is a G protein-coupled receptor that can occur in interconvertible coupled and uncoupled states. It is enriched in the basal ganglia, hippocampus, olfactory bulb, and cortical areas, and plays a role in motor and cognitive functions. Muscarinic M1 agonists are potential therapeutic agents for cognitive disorders. The aim of this study was to evaluate [11C]AF150(S) as a putative M1ACh-R agonist PET ligand, which, owing to its agonist properties, could provide a tool to explore the active G protein-coupled receptor. METHODS: Regional kinetics of [11C]AF150(S) in rat brain were measured using a high-resolution research tomograph, both under baseline conditions and following pre-treatment with various compounds or co-administration of non-radioactive AF150(S). Data were analysed by calculating standard uptake values and by applying the simplified reference tissue model (SRTM). RESULTS: [11C]AF150(S) was rapidly taken up in the brain, followed by a rapid clearance from all brain regions. Analysis of PET data using SRTM revealed a binding potential (BPND) of 0.25 for the striatum, 0.20 for the hippocampus, 0.16 for the frontal cortical area and 0.15 for the posterior cortical area, all regions rich in M1ACh-R. BPND values were significantly reduced following pre-treatment with M1ACh-R antagonists. BPND values were not affected by pre-treatment with a M3ACh-R antagonist. Moreover, BPND was significantly reduced after pre-treatment with haloperidol, a dopamine D2 receptor blocker that causes an increase in extracellular acetylcholine (ACh). The latter may compete with [11C]AF150(S) for binding to the M1ACh-R; further pharmacological agents were applied to investigate this possibility. Upon injection of the highest dose (49.1 nmol kg-1) of [11C]AF150(S) diluted with non-radioactive AF150(S), brain concentration of AF150(S) reached 100 nmol L-1 at peak level. At this concentration, no sign of saturation in binding to M1ACh-R was observed. CONCLUSIONS: The agonist PET ligand [11C]AF150(S) was rapidly taken up in the brain and showed an apparent specific M1ACh-R-related signal in brain areas that are rich in M1ACh-R. Moreover, binding of the agonist PET ligand [11C]AF150(S) appears to be sensitive to changes in extracellular ACh levels. Further studies are needed to evaluate the full potential of [11C]AF150(S) for imaging the active pool of M1ACh-R in vivo.