Pharmacokinetics of SNI-2011 (1) : Absorption, Distribution, Metabolism and Excretion of 14C-SNI-2011 in Rats

The absorption, distribution, metabolism, excretion and plasma protein binding of SNI-2011, a novel muscarinic acetylcholine receptor agonist developed as an agent improving the symptoms of dry mouth or dry eye caused by Sjögren's syndrome, were studied in rats. 1. After a single oral administr...

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Published inDrug Metabolism and Pharmacokinetics Vol. 16; no. 6; pp. 537 - 552
Main Authors TOMIZUKA, Toshie, TAKAO, Atsushi, NEMOTO, Kazue, SUWA, Masato, YAMASHITA, Kouwa, SHIMADA, Shin-ichi, NOGAMI, Takashi, TSUTSUMI, Shuichiro, KAWASHIRO, Takashi, NIWA, Makoto, WASHIO, Takuo, WAKAIKI, Akinori, EBINE, Hiroki, KOHSAKA, Kazuhiro, YOSHIOKA, Yayoi, NAKANO, Ken-ichi, SHIMIZU, Yayoi
Format Journal Article
LanguageEnglish
Published The Japanese Society for the Study of Xenobiotics 2001
Subjects
Absorption
Cevimeline hydrochloride hydrate
Distribution
Excretion
Metabolism
Plasma protein binding
Rat
SNI-2011
Transfer to fetus and milk
Online AccessGet full text
ISSN0916-1139
DOI10.2133/dmpk.16.537

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Abstract The absorption, distribution, metabolism, excretion and plasma protein binding of SNI-2011, a novel muscarinic acetylcholine receptor agonist developed as an agent improving the symptoms of dry mouth or dry eye caused by Sjögren's syndrome, were studied in rats. 1. After a single oral administration of 14C-SNI-2011 to male rats, plasma level of radioactivity reached the maximum at approximately 30 minutes, and declined by the bi-exponential manner. Oral absorption rate of radioactivity was 94%. Plasma level and pharmacokinetic parameters of radioactivity in female rats were comparable with those of male rats. 14C-SNI-2011 was considerably absorbed from duodenum, jejunum, ileum and colon. Plasma level of radioactivity at 8hr after daily oral administration of 14C-SNI-2011 increased with the number of dosing, and reached a steady state by the 3rd day. 2. After a single oral administration of 14C-SNI-2011 to male or female rats, radioactivity was distributed rapidly in whole body, and then eliminated rapidly. Tissue levels of radioactivity in male rats at 8hr after daily oral administration increased with the number of doses reaching approximately 4 times higher levels than those after the 1st administration. In pregnant rats on the 18th day of gestation, radioactivity was transferred into fetal tissues, and then decreased similarly as from maternal plasma. 3. SNI-2011 trans-sulfoxide (SNI-t-SO), SNI-2011 cis-sulfoxide (SNI-c-SO), SNI-2011 sulfone (SNI-SO2) and SNI-2011 N-oxide (SNI-NO) were identified in rat urine. As judged from the result on TLC/ radioluminography of plasma and urine samples, SNI-t-SO appeared to be the main metabolite in rats. Plasma concentration and urinary excretion rates of the unchanged SNI-2011 in female rats were higher than those in male rats. Repeated administration of SNI-2011 had no effect on liver weight, microsomal protein contents and activities of hepatic drug-metabolizing enzymes. 4. Main excretion route of 14C-SNI-2011 was urine in both of male and female rats, and approximately 100% of the dose was excreted in urine within 168 hours after administration. Fecal excretion rate of radioactivity was below 1% of the administered dose. Residual radioactivity in carcass accounted only for 0.1% of the dose. Daily urinary and fecal excretion rates of radioactivity in the period and after repeated oral administration were almost constant, and these rates were similar to those after a single administration. Radioactivity in the milk was 3.0 to 4.7 times higher than that in plasma. 5. Plasma protein binding rates of 14C-SNI-2011 in rats, dogs and human in vitro were relatively low (15.2 to 20.6%), and the binding rate was not affected by drug concentration or test species.
AbstractList The absorption, distribution, metabolism, excretion and plasma protein binding of SNI-2011, a novel muscarinic acetylcholine receptor agonist developed as an agent improving the symptoms of dry mouth or dry eye caused by Sjögren's syndrome, were studied in rats. 1. After a single oral administration of 14C-SNI-2011 to male rats, plasma level of radioactivity reached the maximum at approximately 30 minutes, and declined by the bi-exponential manner. Oral absorption rate of radioactivity was 94%. Plasma level and pharmacokinetic parameters of radioactivity in female rats were comparable with those of male rats. 14C-SNI-2011 was considerably absorbed from duodenum, jejunum, ileum and colon. Plasma level of radioactivity at 8hr after daily oral administration of 14C-SNI-2011 increased with the number of dosing, and reached a steady state by the 3rd day. 2. After a single oral administration of 14C-SNI-2011 to male or female rats, radioactivity was distributed rapidly in whole body, and then eliminated rapidly. Tissue levels of radioactivity in male rats at 8hr after daily oral administration increased with the number of doses reaching approximately 4 times higher levels than those after the 1st administration. In pregnant rats on the 18th day of gestation, radioactivity was transferred into fetal tissues, and then decreased similarly as from maternal plasma. 3. SNI-2011 trans-sulfoxide (SNI-t-SO), SNI-2011 cis-sulfoxide (SNI-c-SO), SNI-2011 sulfone (SNI-SO2) and SNI-2011 N-oxide (SNI-NO) were identified in rat urine. As judged from the result on TLC/ radioluminography of plasma and urine samples, SNI-t-SO appeared to be the main metabolite in rats. Plasma concentration and urinary excretion rates of the unchanged SNI-2011 in female rats were higher than those in male rats. Repeated administration of SNI-2011 had no effect on liver weight, microsomal protein contents and activities of hepatic drug-metabolizing enzymes. 4. Main excretion route of 14C-SNI-2011 was urine in both of male and female rats, and approximately 100% of the dose was excreted in urine within 168 hours after administration. Fecal excretion rate of radioactivity was below 1% of the administered dose. Residual radioactivity in carcass accounted only for 0.1% of the dose. Daily urinary and fecal excretion rates of radioactivity in the period and after repeated oral administration were almost constant, and these rates were similar to those after a single administration. Radioactivity in the milk was 3.0 to 4.7 times higher than that in plasma. 5. Plasma protein binding rates of 14C-SNI-2011 in rats, dogs and human in vitro were relatively low (15.2 to 20.6%), and the binding rate was not affected by drug concentration or test species.
Author NOGAMI, Takashi
NEMOTO, Kazue
KAWASHIRO, Takashi
NAKANO, Ken-ichi
YAMASHITA, Kouwa
EBINE, Hiroki
TSUTSUMI, Shuichiro
WAKAIKI, Akinori
SHIMADA, Shin-ichi
KOHSAKA, Kazuhiro
TAKAO, Atsushi
WASHIO, Takuo
SHIMIZU, Yayoi
YOSHIOKA, Yayoi
SUWA, Masato
TOMIZUKA, Toshie
NIWA, Makoto
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References 13) 日本アイソトープ協会(編):ラジオアイソトープ薬物代謝実験法.p390,東京;丸善(1981
7) Omura, T. and Sato, R.: The carbon monoxide-binding pigment of liver microsomes. II. Solubilization, purification, and properties. J Biol. Chem., 239: 2379-2385 (1964).
19) Lin, G., McKay, G., Hubbard, J. W. and Midha, K. K.: Decomposition of clozapine N-oxide in the qualitative and quantitative analysis of clozapine and its metabolites. J. Pharm. Sci., 83: 1412-1417 (1994).
12) 山岡 清,谷川原祐介:マイコンによる薬物速度論入門.東京;南江堂(1983
20) 菅原和信,豊口禎子:薬剤の母乳への移行.東京;南山堂(1991
14) 粟津荘司,小泉保(編):最新生物薬剤学.pp 87-88,東京;南江堂(1991
18) Gruenke, L. D., Craig, J. C., Klein, F. D., Nguyen, T. L., Hitzemann, B. A., Holaday, J. W., Loh, H. H., Braff, L., Fischer, A., Glick, I. D., Hartmann, F. and Bissell, D. M.: Determination of chlorpromazine and its major metabolites by gas chromatography/mass spectrometry. Application to biological fluids. Biomed. Mass Spectrom., 12: 707-713 (1985).
5) Lowry, O. H., Rosebrough, N. J., Farr, A. L, and Randall, R. J.: Protein measurement with the Folin phenol reagent. J. Biol. Chem., 193: 265-275 (1951).
16) Johnson, D. E., Rodriguez, C. F. and Burchfield, H. P.: Determination by microcoulometric gas chromatography of chlorpromazine metabolites in human urine. Biochem. Pharmacol., 14: 1453-1469 (1965).
17) Essien, E. E., Cowan, D. A. and Beckett, A. H.: Metabolism of phenothiazines: Identification of N-oxygenated products by gas chromatography and mass spectrometry. J. Pharm. Pharmacol., 27: 334-342 (1975).
3) Iga, Y., Arisawa, H., Ogane, N., Saito, Y., Tomizuka, T., Nakagawa-Yagi, Y., Masunaga, H., Yasuda, H. and Miyata, N.: (±)-cis-2-Methylspiro [1, 3-oxathiolane-5,3 quinuclidine] hydrochloride, hemihydrate (SNI-2011, Cevimeline hydrochloride) induces saliva and tear secretions in rats and mice: The role of muscarinic acetylcholine receptors. Jpn. J. Pharmacol., 78: 373-380 (1998).
11) Mihara, K. and Sato, R.: Partial purification of NADH-cytochrome b5 reductase from rabbit liver microsomes with detergents and its properties. J. Biochem., 71: 725-735 (1972).
10) Phillips, A. H. and Langdon, R. G.: Hepatic triphosphopyridine nucleotide cytochrome C reductase: Isolation, characterization and kinetic studies. J. Biol. Chem., 237: 2652-2660 (1962).
2) Masunaga, H., Ogawa, H., Uematsu, Y., Tomizuka, T., Yasuda, H. and Takeshita, Y.: Long-lasting salivation induced by a novel muscarinic receptor agonist SNI-2011 in rats and dogs. Eur. J. Pharmacol., 339: 1-9 (1997).
4) 花野 学,梅村甲子郎,伊賀立二(編):医薬品開発のためのファーマコキネティクス実験法.pp.326-327,東京;ソフトサイエンス社(1985
6) Omura, T. and Sato, R.: The carbon monoxide-binding pigment of liver microsomes. I. Evidence for its hemoprotein nature. J. Biol. Chem., 239: 2370-2378 (1964).
1) Iwabuchi, Y. and Masuhara, T.: Sialogogic activities of SNI-2011 compared with those of pilocarpine and McN-A-343 in rat salivary glands: Identification of a potential therapeutic agent for treatment of Sjögren's syndrome. Gen. Pharmacol., 25: 123-129 (1994).
9) Nash, T.: The colorimetric estimation of formaldehyde by mean of the Hantzsch reaction. Biochem. J., 55: 416-421 (1953).
8) Imai, Y., Ito, A. and Sato, R.: Evidence for biochemically different types of vesicles in the hepatic microsomal fraction. J. Biochem., 60: 417-428 (1966).
15) Gudzinowicz, B. J., Martin, H. F. and Driscoll, J. L.: Gas chromatographic analysis of thermal decomposition products of chlorpromazine, chlorpromazine S-oxide and chlorpromazine N-oxide. j Gas Chromatogr., 2: 265-269 (1964).
References_xml – reference: 20) 菅原和信,豊口禎子:薬剤の母乳への移行.東京;南山堂(1991).
– reference: 12) 山岡 清,谷川原祐介:マイコンによる薬物速度論入門.東京;南江堂(1983).
– reference: 14) 粟津荘司,小泉保(編):最新生物薬剤学.pp 87-88,東京;南江堂(1991).
– reference: 4) 花野 学,梅村甲子郎,伊賀立二(編):医薬品開発のためのファーマコキネティクス実験法.pp.326-327,東京;ソフトサイエンス社(1985).
– reference: 17) Essien, E. E., Cowan, D. A. and Beckett, A. H.: Metabolism of phenothiazines: Identification of N-oxygenated products by gas chromatography and mass spectrometry. J. Pharm. Pharmacol., 27: 334-342 (1975).
– reference: 9) Nash, T.: The colorimetric estimation of formaldehyde by mean of the Hantzsch reaction. Biochem. J., 55: 416-421 (1953).
– reference: 6) Omura, T. and Sato, R.: The carbon monoxide-binding pigment of liver microsomes. I. Evidence for its hemoprotein nature. J. Biol. Chem., 239: 2370-2378 (1964).
– reference: 15) Gudzinowicz, B. J., Martin, H. F. and Driscoll, J. L.: Gas chromatographic analysis of thermal decomposition products of chlorpromazine, chlorpromazine S-oxide and chlorpromazine N-oxide. j Gas Chromatogr., 2: 265-269 (1964).
– reference: 16) Johnson, D. E., Rodriguez, C. F. and Burchfield, H. P.: Determination by microcoulometric gas chromatography of chlorpromazine metabolites in human urine. Biochem. Pharmacol., 14: 1453-1469 (1965).
– reference: 5) Lowry, O. H., Rosebrough, N. J., Farr, A. L, and Randall, R. J.: Protein measurement with the Folin phenol reagent. J. Biol. Chem., 193: 265-275 (1951).
– reference: 19) Lin, G., McKay, G., Hubbard, J. W. and Midha, K. K.: Decomposition of clozapine N-oxide in the qualitative and quantitative analysis of clozapine and its metabolites. J. Pharm. Sci., 83: 1412-1417 (1994).
– reference: 1) Iwabuchi, Y. and Masuhara, T.: Sialogogic activities of SNI-2011 compared with those of pilocarpine and McN-A-343 in rat salivary glands: Identification of a potential therapeutic agent for treatment of Sjögren's syndrome. Gen. Pharmacol., 25: 123-129 (1994).
– reference: 7) Omura, T. and Sato, R.: The carbon monoxide-binding pigment of liver microsomes. II. Solubilization, purification, and properties. J Biol. Chem., 239: 2379-2385 (1964).
– reference: 18) Gruenke, L. D., Craig, J. C., Klein, F. D., Nguyen, T. L., Hitzemann, B. A., Holaday, J. W., Loh, H. H., Braff, L., Fischer, A., Glick, I. D., Hartmann, F. and Bissell, D. M.: Determination of chlorpromazine and its major metabolites by gas chromatography/mass spectrometry. Application to biological fluids. Biomed. Mass Spectrom., 12: 707-713 (1985).
– reference: 8) Imai, Y., Ito, A. and Sato, R.: Evidence for biochemically different types of vesicles in the hepatic microsomal fraction. J. Biochem., 60: 417-428 (1966).
– reference: 11) Mihara, K. and Sato, R.: Partial purification of NADH-cytochrome b5 reductase from rabbit liver microsomes with detergents and its properties. J. Biochem., 71: 725-735 (1972).
– reference: 13) 日本アイソトープ協会(編):ラジオアイソトープ薬物代謝実験法.p390,東京;丸善(1981).
– reference: 3) Iga, Y., Arisawa, H., Ogane, N., Saito, Y., Tomizuka, T., Nakagawa-Yagi, Y., Masunaga, H., Yasuda, H. and Miyata, N.: (±)-cis-2-Methylspiro [1, 3-oxathiolane-5,3 quinuclidine] hydrochloride, hemihydrate (SNI-2011, Cevimeline hydrochloride) induces saliva and tear secretions in rats and mice: The role of muscarinic acetylcholine receptors. Jpn. J. Pharmacol., 78: 373-380 (1998).
– reference: 2) Masunaga, H., Ogawa, H., Uematsu, Y., Tomizuka, T., Yasuda, H. and Takeshita, Y.: Long-lasting salivation induced by a novel muscarinic receptor agonist SNI-2011 in rats and dogs. Eur. J. Pharmacol., 339: 1-9 (1997).
– reference: 10) Phillips, A. H. and Langdon, R. G.: Hepatic triphosphopyridine nucleotide cytochrome C reductase: Isolation, characterization and kinetic studies. J. Biol. Chem., 237: 2652-2660 (1962).
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SubjectTerms Absorption
Cevimeline hydrochloride hydrate
Distribution
Excretion
Metabolism
Plasma protein binding
Rat
SNI-2011
Transfer to fetus and milk
Title Pharmacokinetics of SNI-2011 (1) : Absorption, Distribution, Metabolism and Excretion of 14C-SNI-2011 in Rats
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