Studies on the metabolism of diltiazem in man.

Sugihara, Juko; Sugawara, Yoichi; Ando, Hiroshi; Harigaya, Shoichi; Etoh, Akira; Kohno, Keiichi

doi:10.1248/bpb1978.7.24

Cited by 68 publications

(21 citation statements)

References 3 publications

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“…It is also undergoing investigation for use as an antihypertensive and antiarrhythmic drug. Diltiazem is extensively metabolized by the liver with very little drug excreted unchanged in the urine (Sugihara et al, 1984). Major pathways of biotransformation include O-deacetylation, Ndemethylation, and O-demethylation.…”

Section: Introductionmentioning

confidence: 99%

N‐monodesmethyldiltiazem is the predominant metabolite of diltiazem in the plasma of young and elderly hypertensives.

Montamat

Abernethy

1987

Brit J Clinical Pharma

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1 Twelve young (ages 30-39 years) and twelve elderly (ages 65-83 years) hypertensives were administered diltiazem twice daily for 2 weeks at doses up to 240 mg day-'.2 Plasma was analysed for diltiazem, N-monodesmethyldiltiazem, and desacetyldiltiazem concentrations after a single 10 min intravenous infusion of 21.8 mg diltiazem HCl on day 1 and after the morning oral dose of 120 mg diltiazem base on day 14. 3 N-monodesmethyldiltiazem accumulated to higher plasma concentrations than desacetyldiltiazem at steady state on day 14 in both age groups. 4 Prolongation of plasma diltiazem half-life occurred after 2 weeks of oral diltiazem therapy in both age groups. 5 There were no significant differences between the young and elderly with regard to half-life, area under the curve, and the peak and trough plasma concentrations of diltiazem, N-monodesmethyldiltiazem, and desacetyldiltiazem; systemic clearance and volume of distribution of diltiazem were also similar in both groups.

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Section: Introductionmentioning

confidence: 99%

N‐monodesmethyldiltiazem is the predominant metabolite of diltiazem in the plasma of young and elderly hypertensives.

Montamat

Abernethy

1987

Brit J Clinical Pharma

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“…Diltiazem is extensively metabolized (Rovei et al, 1980;Sugihara et al, 1984;Sugawara et al, 1988;Molden et al, 2000; see Fig. 1), and several of its metabolites also possess Ca 2ϩ channel-blocking activity (Schoemaker et al, 1987).…”

Section: Resultsmentioning

confidence: 99%

“…In addition, diltiazem has been shown to provide cardioprotection against ischemia/reperfusion injury in rats (Takeo et al, 2004), similar effects as have been noted for ghrelin and other GHSs (discussed above). Diltiazem is extensively metabolized, and several of these metabolites reach significant concentrations in humans (Rovei et al, 1980;Sugihara et al, 1984;Sugawara et al, 1988;Molden et al, 2000). Several metabolites of diltiazem also show binding activity at Ca 2ϩ channels, although all have lower affinity than diltiazem itself (Schoemaker et al, 1987).…”

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confidence: 99%

“…We have not observed that diltiazem inhibits food intake and may even modestly stimulate food intake in rats (J.-N. Ma and E. S. Burstein, unpublished observations). The apparent lack of effect of long-term diltiazem administration on GH release or food intake could be interpreted as a lack of support for the role of ghrelin agonists in these effects; however it is probably more likely to be due to the primary effects of diltiazem (i.e., blockade of Ca 2ϩ influx), which may impair GH release (Lussier et al, 1988), and/or inadequate drug exposure (Rovei et al, 1980;Sugihara et al, 1984;Chaffman and Brogden, 1985), given its potency for activating GHSR1a receptors (current study) relative to its affinity for L-type Ca 2ϩ channels (Glossmann and Striessnig, 1990;Zobrist and Mecca, 1990), and is also consistent with our observations that diltiazem is a partial agonist at GHSR1a receptors. Diltiazem peak plasma concentrations as high as 152 ng/ml were reported in healthy adult male volunteers (Zelis and Kinney, 1982), which, depending upon the assay, is comparable with or significantly lower than the pEC 50 values reported here (Table 1).…”

mentioning

confidence: 99%

“…Diltiazem is extensively metabolized (Rovei et al, 1980;Sugihara et al, 1984;Sugawara et al, 1988;Molden et al, 2000), and some of its metabolites, notably desacetyl diltiazem (M 1 ), reach plasma concentrations approaching 20 to 30% that of diltiazem itself in humans (Rovei et al, 1980;Sugihara et al, 1984 (Schoemaker et al, 1987). The M 2 metabolite, which we found to be significantly more potent and efficacious as a GHSR1a agonist than diltiazem, had approximately 10-fold lower activity in L-type Ca 2ϩ channel binding and functional assays than diltiazem (Schoemaker et al, 1987).…”

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confidence: 99%

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Identification of the Atypical L-Type Ca²⁺ Channel Blocker Diltiazem and Its Metabolites As Ghrelin Receptor Agonists

et al. 2007

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Using a high-throughput functional screen, the atypical L-type Ca 2ϩ channel blocker diltiazem was discovered to be an agonist at the human ghrelin (GHSR1a) receptor. In cellular proliferation, Ca 2ϩ mobilization, and bioluminescence resonance energy transfer (BRET-2) assays, diltiazem was a partial agonist at GHSR1a receptors, with 50 to 80% relative efficacy compared with the GHSR1a peptide agonist GHRP-6, and high nanomolar to low micromolar potency, depending upon the assay. Seven of the known primary metabolites of diltiazem were synthesized, and three of them (M A , M 1 , and M 2 ) were more efficacious and/or more potent than diltiazem at GHSR1a receptors, with a rank order of agonist activity of M 2 Ͼ M 1 Ͼ M A Ͼ diltiazem, whereas M 4 and M 6 metabolites displayed weak agonist activity, and the M 8 and M 9 metabolites were inactive. Binding affinities of diltiazem and these metabolites to GHSR1a receptors followed a similar rank order. In vivo tests showed that diltiazem and M 2 each stimulated growth hormone release in male Sprague-Dawley neonatal rats, although to a lesser degree than GHRP-6. Thus, diltiazem and chemical analogs of diltiazem represent a new class of GHSR1a receptor agonists. The possible contributions of GHSR1a receptor activation to the clinical actions of diltiazem are discussed in the context of the known beneficial cardiovascular effects of ghrelin.Receptors that mediate the effects of growth hormone secretagogues (GHSs), including modified enkephalin peptides (Bowers et al., 1984) as well as small molecules (Smith et al., 1993), each capable of stimulating GH release, were only recently cloned (Howard et al., 1996). Two isoforms (A and B) were identified, but only growth hormone secretagogue receptor type 1a (GHSR1a) binds and responds to GHSs (Howard et al., 1996). Both isoforms are widely expressed, with the highest levels of GHSR1a found in the arcuate nucleus of the hypothalamus, and lower levels in cardiac tissue (Guan et al., 1997;Gnanapavan et al., 2002). Subsequently, a naturally occurring GHSR1a agonist was identified called ghrelin (Kojima et al., 1999).A great deal of evidence exists linking ghrelin, GHSR1a receptors, food intake, and obesity in both animal models (Tschöp et al., 2000;Nakazato et al., 2001;Asakawa et al., 2003;Shearman et al., 2006) and humans (Cummings et al., 2001(Cummings et al., , 2002Wren et al., 2001). However, ghrelin also regulates a variety of other endocrine and metabolic processes, including gut motility, energy homeostasis, cellular proliferation, and hormone production (for review, see van der Lely et al., 2004). It is noteworthy that ghrelin, and other GHS ligands produce a number of beneficial effects on cardiovasArticle, publication date, and citation information can be found at http://molpharm.aspetjournals.org. doi:10.1124/mol.107.034298. ABBREVIATIONS: GHS

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Steady-state pharmacokinetics of diltiazem and hydrochlorothiazide administered alone and in combination

Weir¹,

Dimmitt²,

Lanman

et al. 1998

Biopharm. Drug Dispos.

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Studies on the metabolism of diltiazem in man.

Cited by 68 publications

References 3 publications

N‐monodesmethyldiltiazem is the predominant metabolite of diltiazem in the plasma of young and elderly hypertensives.

N‐monodesmethyldiltiazem is the predominant metabolite of diltiazem in the plasma of young and elderly hypertensives.

Identification of the Atypical L-Type Ca²⁺ Channel Blocker Diltiazem and Its Metabolites As Ghrelin Receptor Agonists

Steady-state pharmacokinetics of diltiazem and hydrochlorothiazide administered alone and in combination

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Studies on the metabolism of diltiazem in man.

Cited by 68 publications

References 3 publications

N‐monodesmethyldiltiazem is the predominant metabolite of diltiazem in the plasma of young and elderly hypertensives.

N‐monodesmethyldiltiazem is the predominant metabolite of diltiazem in the plasma of young and elderly hypertensives.

Identification of the Atypical L-Type Ca2+ Channel Blocker Diltiazem and Its Metabolites As Ghrelin Receptor Agonists

Steady-state pharmacokinetics of diltiazem and hydrochlorothiazide administered alone and in combination

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Identification of the Atypical L-Type Ca²⁺ Channel Blocker Diltiazem and Its Metabolites As Ghrelin Receptor Agonists