T Yamaguchi, K Sasaki, Y Kurosaki, T Nakayama, T Kimura
{"title":"5-氨基水杨酸新型结肠靶向前药水杨酸的生物药剂学评价。","authors":"T Yamaguchi, K Sasaki, Y Kurosaki, T Nakayama, T Kimura","doi":"10.3109/10611869409015900","DOIUrl":null,"url":null,"abstract":"<p><p>A prodrug of 5-aminosalicylic acid (5-ASA), salicylazosulfanilic acid (SASA), which consists of sulfanilic acid linked to 5-ASA through an azo-linkage was newly synthesized. Biopharmaceutical properties of SASA were evaluated in comparison with those of salicylazosulfapyridine (SASP) in rats. Since SASA is much more hydrophilic than SASP, the absorption of SASA from the small intestine was less in comparison with SASP. When SASA and SASP were incubated with the rat intestinal contents under anaerobic conditions, both compounds were stable in the small-intestinal contents, but were rapidly degraded to 5-ASA in the cecal and the colonic contents. The degradation to 5-ASA by the large-intestinal contents was suppressed by the pretreatment with kanamycin sulfate, suggesting that the bioconversion of SASA is mediated by the intestinal microflora similarly to that of SASP and that SASA is also a prodrug of 5-ASA. After the oral administration, 5-ASA was found neither in the stomach nor in the small intestine in case of both prodrugs. Most of the prodrugs were transferred to the lower intestine where they were degraded to 5-ASA. The recovery of SASA including the metabolites from the gastrointestinal tract at four hours after the oral administration was significantly greater than that of SASP. Accordingly, SASA is free from the liberation of sulfapyridine, the adverse effect moiety of SASP, and less absorbable in the small intestine. Thus, the beneficial characteristics of SASA as an excellent colon-targeted prodrug of 5-ASA were clarified.</p>","PeriodicalId":15573,"journal":{"name":"Journal of Drug Targeting","volume":null,"pages":null},"PeriodicalIF":4.3000,"publicationDate":"1994-01-01","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"https://sci-hub-pdf.com/10.3109/10611869409015900","citationCount":"19","resultStr":"{\"title\":\"Biopharmaceutical evaluation of salicylazosulfanilic acid as a novel colon-targeted prodrug of 5-aminosalicylic acid.\",\"authors\":\"T Yamaguchi, K Sasaki, Y Kurosaki, T Nakayama, T Kimura\",\"doi\":\"10.3109/10611869409015900\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"<p><p>A prodrug of 5-aminosalicylic acid (5-ASA), salicylazosulfanilic acid (SASA), which consists of sulfanilic acid linked to 5-ASA through an azo-linkage was newly synthesized. Biopharmaceutical properties of SASA were evaluated in comparison with those of salicylazosulfapyridine (SASP) in rats. Since SASA is much more hydrophilic than SASP, the absorption of SASA from the small intestine was less in comparison with SASP. When SASA and SASP were incubated with the rat intestinal contents under anaerobic conditions, both compounds were stable in the small-intestinal contents, but were rapidly degraded to 5-ASA in the cecal and the colonic contents. The degradation to 5-ASA by the large-intestinal contents was suppressed by the pretreatment with kanamycin sulfate, suggesting that the bioconversion of SASA is mediated by the intestinal microflora similarly to that of SASP and that SASA is also a prodrug of 5-ASA. After the oral administration, 5-ASA was found neither in the stomach nor in the small intestine in case of both prodrugs. Most of the prodrugs were transferred to the lower intestine where they were degraded to 5-ASA. The recovery of SASA including the metabolites from the gastrointestinal tract at four hours after the oral administration was significantly greater than that of SASP. Accordingly, SASA is free from the liberation of sulfapyridine, the adverse effect moiety of SASP, and less absorbable in the small intestine. 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Biopharmaceutical evaluation of salicylazosulfanilic acid as a novel colon-targeted prodrug of 5-aminosalicylic acid.
A prodrug of 5-aminosalicylic acid (5-ASA), salicylazosulfanilic acid (SASA), which consists of sulfanilic acid linked to 5-ASA through an azo-linkage was newly synthesized. Biopharmaceutical properties of SASA were evaluated in comparison with those of salicylazosulfapyridine (SASP) in rats. Since SASA is much more hydrophilic than SASP, the absorption of SASA from the small intestine was less in comparison with SASP. When SASA and SASP were incubated with the rat intestinal contents under anaerobic conditions, both compounds were stable in the small-intestinal contents, but were rapidly degraded to 5-ASA in the cecal and the colonic contents. The degradation to 5-ASA by the large-intestinal contents was suppressed by the pretreatment with kanamycin sulfate, suggesting that the bioconversion of SASA is mediated by the intestinal microflora similarly to that of SASP and that SASA is also a prodrug of 5-ASA. After the oral administration, 5-ASA was found neither in the stomach nor in the small intestine in case of both prodrugs. Most of the prodrugs were transferred to the lower intestine where they were degraded to 5-ASA. The recovery of SASA including the metabolites from the gastrointestinal tract at four hours after the oral administration was significantly greater than that of SASP. Accordingly, SASA is free from the liberation of sulfapyridine, the adverse effect moiety of SASP, and less absorbable in the small intestine. Thus, the beneficial characteristics of SASA as an excellent colon-targeted prodrug of 5-ASA were clarified.
期刊介绍:
Journal of Drug Targeting publishes papers and reviews on all aspects of drug delivery and targeting for molecular and macromolecular drugs including the design and characterization of carrier systems (whether colloidal, protein or polymeric) for both vitro and/or in vivo applications of these drugs.
Papers are not restricted to drugs delivered by way of a carrier, but also include studies on molecular and macromolecular drugs that are designed to target specific cellular or extra-cellular molecules. As such the journal publishes results on the activity, delivery and targeting of therapeutic peptides/proteins and nucleic acids including genes/plasmid DNA, gene silencing nucleic acids (e.g. small interfering (si)RNA, antisense oligonucleotides, ribozymes, DNAzymes), as well as aptamers, mononucleotides and monoclonal antibodies and their conjugates. The diagnostic application of targeting technologies as well as targeted delivery of diagnostic and imaging agents also fall within the scope of the journal. In addition, papers are sought on self-regulating systems, systems responsive to their environment and to external stimuli and those that can produce programmed, pulsed and otherwise complex delivery patterns.