Pharmacokinetics and ADME Characterization of Intravenous and Oral [<sup>14</sup>C]-Linerixibat in Healthy Male Volunteers.

Zamek-Gliszczynski, Maciej J; Kenworthy, David; Bershas, David A; Sanghvi, Mitesh; Pereira, Adrian I; Mudunuru, Jennypher; Crossman, Lee; Pirhalla, Jill L; Thorpe, Karl M; Dennison, Jeremy M T J; McLaughlin, Megan M; Allinder, Matthew; Swift, Brandon; O'Connor-Semmes, Robin L; Young, Graeme C

Pharmacokinetics and ADME Characterization of Intravenous and Oral [¹⁴C]-Linerixibat in Healthy Male Volunteers.

Zamek-Gliszczynski, Maciej J; Kenworthy, David; Bershas, David A; Sanghvi, Mitesh; Pereira, Adrian I; Mudunuru, Jennypher; Crossman, Lee; Pirhalla, Jill L; Thorpe, Karl M; Dennison, Jeremy M T J; McLaughlin, Megan M; Allinder, Matthew; Swift, Brandon; O'Connor-Semmes, Robin L; Young, Graeme C.

Afiliação

Zamek-Gliszczynski MJ; Drug Metabolism and Disposition (M.J.Z.-G., D.A.B., J.M., J.L.P.), Medicine Development (M.M.M.), and Development Biostatistics (M.A.), GlaxoSmithKline, Collegeville, Pennsylvania; Drug Metabolism and Disposition (D.K., G.C.Y.), and Bioanalysis, Immunogenicity and Biomarkers (A.I.P.), GlaxoSmithKlin
Kenworthy D; Drug Metabolism and Disposition (M.J.Z.-G., D.A.B., J.M., J.L.P.), Medicine Development (M.M.M.), and Development Biostatistics (M.A.), GlaxoSmithKline, Collegeville, Pennsylvania; Drug Metabolism and Disposition (D.K., G.C.Y.), and Bioanalysis, Immunogenicity and Biomarkers (A.I.P.), GlaxoSmithKlin
Bershas DA; Drug Metabolism and Disposition (M.J.Z.-G., D.A.B., J.M., J.L.P.), Medicine Development (M.M.M.), and Development Biostatistics (M.A.), GlaxoSmithKline, Collegeville, Pennsylvania; Drug Metabolism and Disposition (D.K., G.C.Y.), and Bioanalysis, Immunogenicity and Biomarkers (A.I.P.), GlaxoSmithKlin
Sanghvi M; Drug Metabolism and Disposition (M.J.Z.-G., D.A.B., J.M., J.L.P.), Medicine Development (M.M.M.), and Development Biostatistics (M.A.), GlaxoSmithKline, Collegeville, Pennsylvania; Drug Metabolism and Disposition (D.K., G.C.Y.), and Bioanalysis, Immunogenicity and Biomarkers (A.I.P.), GlaxoSmithKlin
Pereira AI; Drug Metabolism and Disposition (M.J.Z.-G., D.A.B., J.M., J.L.P.), Medicine Development (M.M.M.), and Development Biostatistics (M.A.), GlaxoSmithKline, Collegeville, Pennsylvania; Drug Metabolism and Disposition (D.K., G.C.Y.), and Bioanalysis, Immunogenicity and Biomarkers (A.I.P.), GlaxoSmithKlin
Mudunuru J; Drug Metabolism and Disposition (M.J.Z.-G., D.A.B., J.M., J.L.P.), Medicine Development (M.M.M.), and Development Biostatistics (M.A.), GlaxoSmithKline, Collegeville, Pennsylvania; Drug Metabolism and Disposition (D.K., G.C.Y.), and Bioanalysis, Immunogenicity and Biomarkers (A.I.P.), GlaxoSmithKlin
Crossman L; Drug Metabolism and Disposition (M.J.Z.-G., D.A.B., J.M., J.L.P.), Medicine Development (M.M.M.), and Development Biostatistics (M.A.), GlaxoSmithKline, Collegeville, Pennsylvania; Drug Metabolism and Disposition (D.K., G.C.Y.), and Bioanalysis, Immunogenicity and Biomarkers (A.I.P.), GlaxoSmithKlin
Pirhalla JL; Drug Metabolism and Disposition (M.J.Z.-G., D.A.B., J.M., J.L.P.), Medicine Development (M.M.M.), and Development Biostatistics (M.A.), GlaxoSmithKline, Collegeville, Pennsylvania; Drug Metabolism and Disposition (D.K., G.C.Y.), and Bioanalysis, Immunogenicity and Biomarkers (A.I.P.), GlaxoSmithKlin
Thorpe KM; Drug Metabolism and Disposition (M.J.Z.-G., D.A.B., J.M., J.L.P.), Medicine Development (M.M.M.), and Development Biostatistics (M.A.), GlaxoSmithKline, Collegeville, Pennsylvania; Drug Metabolism and Disposition (D.K., G.C.Y.), and Bioanalysis, Immunogenicity and Biomarkers (A.I.P.), GlaxoSmithKlin
Dennison JMTJ; Drug Metabolism and Disposition (M.J.Z.-G., D.A.B., J.M., J.L.P.), Medicine Development (M.M.M.), and Development Biostatistics (M.A.), GlaxoSmithKline, Collegeville, Pennsylvania; Drug Metabolism and Disposition (D.K., G.C.Y.), and Bioanalysis, Immunogenicity and Biomarkers (A.I.P.), GlaxoSmithKlin
McLaughlin MM; Drug Metabolism and Disposition (M.J.Z.-G., D.A.B., J.M., J.L.P.), Medicine Development (M.M.M.), and Development Biostatistics (M.A.), GlaxoSmithKline, Collegeville, Pennsylvania; Drug Metabolism and Disposition (D.K., G.C.Y.), and Bioanalysis, Immunogenicity and Biomarkers (A.I.P.), GlaxoSmithKlin
Allinder M; Drug Metabolism and Disposition (M.J.Z.-G., D.A.B., J.M., J.L.P.), Medicine Development (M.M.M.), and Development Biostatistics (M.A.), GlaxoSmithKline, Collegeville, Pennsylvania; Drug Metabolism and Disposition (D.K., G.C.Y.), and Bioanalysis, Immunogenicity and Biomarkers (A.I.P.), GlaxoSmithKlin
Swift B; Drug Metabolism and Disposition (M.J.Z.-G., D.A.B., J.M., J.L.P.), Medicine Development (M.M.M.), and Development Biostatistics (M.A.), GlaxoSmithKline, Collegeville, Pennsylvania; Drug Metabolism and Disposition (D.K., G.C.Y.), and Bioanalysis, Immunogenicity and Biomarkers (A.I.P.), GlaxoSmithKlin
O'Connor-Semmes RL; Drug Metabolism and Disposition (M.J.Z.-G., D.A.B., J.M., J.L.P.), Medicine Development (M.M.M.), and Development Biostatistics (M.A.), GlaxoSmithKline, Collegeville, Pennsylvania; Drug Metabolism and Disposition (D.K., G.C.Y.), and Bioanalysis, Immunogenicity and Biomarkers (A.I.P.), GlaxoSmithKlin
Young GC; Drug Metabolism and Disposition (M.J.Z.-G., D.A.B., J.M., J.L.P.), Medicine Development (M.M.M.), and Development Biostatistics (M.A.), GlaxoSmithKline, Collegeville, Pennsylvania; Drug Metabolism and Disposition (D.K., G.C.Y.), and Bioanalysis, Immunogenicity and Biomarkers (A.I.P.), GlaxoSmithKlin

Drug Metab Dispos ; 49(12): 1109-1117, 2021 12.

Article em En | MEDLINE | ID: mdl-34625435

ABSTRACT

ABSTRACT

Linerixibat, an oral small-molecule ileal bile acid transporter inhibitor under development for cholestatic pruritus in primary biliary cholangitis, was designed for minimal absorption from the intestine (site of pharmacological action). This study characterized the pharmacokinetics, absorption, metabolism, and excretion of [14C]-linerixibat in humans after an intravenous microtracer concomitant with unlabeled oral tablets and [14C]-linerixibat oral solution. Linerixibat exhibited absorption-limited flip-flop kinetics longer oral versus intravenous half-life (6-7 hours vs. 0.8 hours). The short intravenous half-life was consistent with high systemic clearance (61.9 l/h) and low volume of distribution (16.3 l). In vitro studies predicted rapid hepatic clearance via cytochrome P450 3A4 metabolism, which predicted human hepatic clearance within 1.5-fold. However, linerixibat was minimally metabolized in humans after intravenous administration â¼80% elimination via biliary/fecal excretion (>90%-97% as unchanged parent) and â¼20% renal elimination by glomerular filtration (>97% as unchanged parent). Absolute oral bioavailability of linerixibat was exceedingly low (0.05%), primarily because of a very low fraction absorbed (0.167%; fraction escaping first-pass gut metabolism (fg) â¼100%), with high hepatic extraction ratio (77.0%) acting as a secondary barrier to systemic exposure. Oral linerixibat was almost entirely excreted (>99% recovered radioactivity) in feces as unchanged and unabsorbed linerixibat. Consistent with the low oral fraction absorbed and â¼20% renal recovery of intravenous [14C]-linerixibat, urinary elimination of orally administered radioactivity was negligible (<0.04% of dose). Linerixibat unequivocally exhibited minimal gastrointestinal absorption and oral systemic exposure. Linerixibat represents a unique example of high CYP3A4 clearance in vitro but nearly complete excretion as unchanged parent drug via the biliary/fecal route. SIGNIFICANCE STATEMENT This study conclusively established minimal absorption and systemic exposure to orally administered linerixibat in humans. The small amount of linerixibat absorbed was eliminated efficiently as unchanged parent drug via the biliary/fecal route. The hepatic clearance mechanism was mispredicted to be mediated via cytochrome P450 3A4 metabolism in vitro rather than biliary excretion of unchanged linerixibat in vivo.

Assuntos

Administração Intravenosa; Administração Oral; Proteínas de Transporte/antagonistas & inibidores; Eliminação Hepatobiliar; Glicoproteínas de Membrana/antagonistas & inibidores; Metilaminas/farmacocinética; Eliminação Renal; Tiazepinas/farmacocinética; Adulto; Disponibilidade Biológica; Fármacos Gastrointestinais/farmacocinética; Voluntários Saudáveis; Eliminação Hepatobiliar/efeitos dos fármacos; Eliminação Hepatobiliar/fisiologia; Humanos; Absorção Intestinal; Masculino; Taxa de Depuração Metabólica; Eliminação Renal/efeitos dos fármacos; Eliminação Renal/fisiologia; Resultado do Tratamento

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Texto completo: 1 Coleções: 01-internacional Base de dados: MEDLINE Assunto principal: Tiazepinas / Glicoproteínas de Membrana / Proteínas de Transporte / Administração Oral / Administração Intravenosa / Eliminação Hepatobiliar / Eliminação Renal / Metilaminas Tipo de estudo: Prognostic_studies Limite: Adult / Humans / Male Idioma: En Ano de publicação: 2021 Tipo de documento: Article

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