Screening Methods for Anti-Ulcer Drugs
Preclinical in-vitro target assays & in-vivo ulcer models, endpoints and reference drugs — an RGUHS Paper IV experimental-pharmacology LAQ
Past RGUHS · 7
RGUHSDec '23
RGUHSJul '23
RGUHSNov '18
RGUHSMay '10
RGUHSOct '09
RGUHSMay '09
RGUHSOct '08
Screening Methods for Anti-Ulcer Drugs
1. Introduction & rationale for screening models
- Peptic ulcer disease (PUD) is a spectrum of mucosal disorders — gastric ulcers, duodenal ulcers (acute and chronic), and postoperative anastomotic ulcers — driven by an imbalance between aggressive factors (acid, pepsin, Helicobacter pylori) and mucosal defensive factors (mucus, bicarbonate, prostaglandins, blood flow) (SK Gupta Ch.35, p.527).
- The pharmacological targets validated in humans — H2-receptor blockers, proton-pump (H+/K+-ATPase) inhibitors, cytoprotective prostaglandin analogues, antacids and mucosal protectives — define the mechanisms an ideal screen must be able to detect, so a battery of complementary models is used rather than a single assay (SK Gupta Ch.35, p.527).
- Persistently high morbidity and the continual arrival of newer chemical entities create an ongoing need for reproducible, mechanism-spanning preclinical screens before clinical testing (SK Gupta Ch.35, p.527).
- Requirements of an ideal experimental ulcer model (SK Gupta Ch.35, p.527):
- Simple, reproducible, and allowing easy quantification of results.
- Usable across a variety of animal species.
- Inducing characteristic ulceration at specific, defined locations (stomach vs duodenum).
- Operating through a defined and distinct mechanism of ulcerogenesis (so a panel covers acid-dependent, cytoprotection-dependent, neurogenic and ischaemic pathways).
- Producing ulcers that do not spontaneously heal during the observation window.
- Cost-effective and not unduly time-consuming.
- Two-tier screening philosophy — in-vitro mechanistic/target assays (receptor binding, enzyme inhibition) are used as the first, high-throughput filter; in-vivo whole-animal ulcer models then confirm efficacy, define the protective mechanism, and generate dose–response data (SK Gupta Ch.35, pp.527–536; Vogel V3 Part XI, p.2383).
- Parietal-cell physiology underpinning the screens — the gastric parietal cell is activated by three secretagogues, histamine (H2), acetylcholine (M3) and gastrin (CCK2); gastrin and ACh also release histamine from enterochromaffin-like (ECL) cells, so histamine is the final common mediator of acid secretion. On stimulation, cytoplasmic tubulovesicles fuse into the apical secretory canaliculus where H+/K+-ATPase (the proton pump, exchanging intracellular H+ for luminal K+) effects the terminal step of acid output — the convergence point that makes the pump the most "downstream" screening target (Vogel V3 Part XI, p.2383; SK Gupta Ch.35, p.528).
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Screening Antiulcer Drugs
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