Saquinavir pharmacokinetics alone and in combination with ritonavir in HIV-infected patients

Merry, Concepta; Barry, Michael; Mulcahy, Fiona; Ryan, Máirín; Heavey, Jane; Tjia, John; Gibbons, Sara; Breckenridge, Alasdair; Back, David

doi:10.1097/00002030-199704000-00001

Cited by 205 publications

(109 citation statements)

References 10 publications

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“…Initial pharmacokinetic studies showed that upon pretreatment of rats with RTV, the AUC 0 -10h of DPC showed 2.5-fold enhancement. RTV is known to cause such effects by potent inhibition of the metabolizing isozyme CYP3A Merry et al, 1997;Koudriakova et al, 1998) and the transporter Pgp (Alsenz et al, 1998). DPC is indeed metabolized prominently by CYP3A4, like most other HIV protease inhibitors, and is also shown to be a good substrate for Pgp, as discussed below.…”

Section: Discussionmentioning

confidence: 99%

Interaction of Ritonavir on Tissue Distribution of a [¹⁴C]L-Valinamide, a Potent Human Immunodeficiency Virus-1 Protease Inhibitor, in Rats Using Quantitative Whole-Body Autoradiography

Solon

Balani²,

Luo³

et al. 2002

Drug Metab Dispos

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This article is available online at http://dmd.aspetjournals.org ABSTRACT: N-[(3-fluorophenyl)methyl]glycyl-N-{3-[((3-aminophenyl)sulfonyl)-2-(aminophenyl)amino]-(1S,2S)-2-hydroxy-1-(phenylmethyl)propyl}-3-methyl-L-valinamide (DPC 681, DPC1 ) on oral coadministration with ritonavir (RTV) in rats caused a significant increase in systemic exposure to DPC. Following a single oral dose of [ 14 C]DPC with and without RTV pretreatment in rats, and subsequent analysis of whole-body sections, prepared at 1 and 7 or 8 h postdose, using whole-body autoradiography showed an increase in radioactivity in tissues (e.g., brain, and testes) upon coadministration. The distribution of radioactivity in the brain parenchyma and ventricles was different, such that the concentration of radioactivity was greater in cerebrospinal fluid (CSF) than in central nervous system. Thus, the use of CSF concentration of the total radioactivity as a surrogate for brain penetration would result in an overestimation. DPC was determined to be metabolized prominently by rCYP3A4. The increased tissue exposure to DPC in rats could largely be attributed to inhibition of CYP3A1/2 by RTV. DPC was also a good substrate for P-glycoprotein (Pgp), with K m of 4 M and V max of 13 pmol/min. The Pgp-mediated transport of DPC across Caco-2 cells was readily saturated at >10 M and was inhibited significantly by RTV at 5 to 10 M. The data above and the reported RTV concentrations suggested that both the Pgp and CYP3A4 inhibition by RTV may play a significant role in enhancing the systemic and tissue exposure to DPC in humans.Multidrug and/or multitarget, highly active antiretroviral therapy of HIV-1 2 , to overcome progression to acquired immunodeficiency syndrome, is still a method of choice for viral suppression. There is also currently an inclusion of pharmacoenhancers in such treatments, in particular the use of RTV. RTV has been previously demonstrated to boost and maintain exposure levels for various HIV protease inhibitors, such as indinavir, amprenavir, saquinavir, lopinavir, and nalfinavir in the clinic, mainly because of inhibition of the metabolizing enzyme CYP3A4 and the transporter Pgp (Casada et al., 2000;Moyle and Back, 2001). Apart from measuring the systemic exposure to various drugs, it is imperative to determine drug distribution into various organs in which the virus can find a sanctuary (e.g., brain and testes) and escape the onslaught of drugs, allowing the virus to replicate, causing CNS damage and viral mutations. The conventional method for such measurement has been excising each organ separately, homogenizing it, followed by oxidizing and liquid scintillation counting of the trapped radioactivity. Currently, quantitative whole-body autoradiography (QWBA) has provided the means for quantitating radioactivity in whole-body sections of animals, which can determine distribution of radioactivity in many more tissue and fluid compartments (Shigematsu et al., 1995(Shigematsu et al., , 1999Zane et al., 1997;Potchoiba et al., 1998). With the contin...

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Section: Discussionmentioning

confidence: 99%

Interaction of Ritonavir on Tissue Distribution of a [¹⁴C]L-Valinamide, a Potent Human Immunodeficiency Virus-1 Protease Inhibitor, in Rats Using Quantitative Whole-Body Autoradiography

Solon

Balani²,

Luo³

et al. 2002

Drug Metab Dispos

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“…Ritonavir is a potent inhibitor of CYP3A4 and coadministration of RTV and SQV results in increases in the C max and AUC of SQV [205,206]. The AUCs of the hard and soft gel formulations of SQV have been shown to increase in the presence of RTV .50-fold and 20-fold respectively [206,207].…”

Section: Saquinavir (Sqv)mentioning

confidence: 99%

“…The AUCs of the hard and soft gel formulations of SQV have been shown to increase in the presence of RTV .50-fold and 20-fold respectively [206,207]. Similarly, the protease inhibitors nel®navir and indinavir inhibit CYP3A4, increasing mean plasma concentrations and AUCs of SQV during co-administration.…”

Section: Saquinavir (Sqv)mentioning

confidence: 99%

“…Similarly, the protease inhibitors nel®navir and indinavir inhibit CYP3A4, increasing mean plasma concentrations and AUCs of SQV during co-administration. Indinavir and nel®navir increased the AUC of soft gel SQV by sixfold and ®ve-fold respectively [207,208]. These interactions are of clinical bene®t, as increased bioavailability results in enhanced antiviral activity and, perhaps, dose reduction.…”

Section: Saquinavir (Sqv)mentioning

confidence: 99%

“…Similarly, co-administration of NFV and RTV produced a 152% increase in the AUC 0-8h of NFV [218]. However, the plasma concentration of RTV is unaltered with IDV, NFV and SQV [217,219,220].…”

Section: Ritonavir (Rtv)mentioning

confidence: 99%

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Hirsch

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D’Aquila³

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Saquinavir pharmacokinetics alone and in combination with ritonavir in HIV-infected patients

Cited by 205 publications

References 10 publications

Interaction of Ritonavir on Tissue Distribution of a [¹⁴C]L-Valinamide, a Potent Human Immunodeficiency Virus-1 Protease Inhibitor, in Rats Using Quantitative Whole-Body Autoradiography

Interaction of Ritonavir on Tissue Distribution of a [¹⁴C]L-Valinamide, a Potent Human Immunodeficiency Virus-1 Protease Inhibitor, in Rats Using Quantitative Whole-Body Autoradiography

Infections in AIDS

Antiretroviral Drug Resistance Testing in Adults With HIV Infection

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Saquinavir pharmacokinetics alone and in combination with ritonavir in HIV-infected patients

Cited by 205 publications

References 10 publications

Interaction of Ritonavir on Tissue Distribution of a [14C]L-Valinamide, a Potent Human Immunodeficiency Virus-1 Protease Inhibitor, in Rats Using Quantitative Whole-Body Autoradiography

Interaction of Ritonavir on Tissue Distribution of a [14C]L-Valinamide, a Potent Human Immunodeficiency Virus-1 Protease Inhibitor, in Rats Using Quantitative Whole-Body Autoradiography

Infections in AIDS

Antiretroviral Drug Resistance Testing in Adults With HIV Infection

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Product

Resources

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Interaction of Ritonavir on Tissue Distribution of a [¹⁴C]L-Valinamide, a Potent Human Immunodeficiency Virus-1 Protease Inhibitor, in Rats Using Quantitative Whole-Body Autoradiography

Interaction of Ritonavir on Tissue Distribution of a [¹⁴C]L-Valinamide, a Potent Human Immunodeficiency Virus-1 Protease Inhibitor, in Rats Using Quantitative Whole-Body Autoradiography