Pharmacodynamics of long-acting folic acid-receptor targeted ritonavir-boosted atazanavir nanoformulations

Puligujja, Pavan; Balkundi, Shantanu; Kendrick, Lindsey M.; Baldridge, Hannah M.; Hilaire, James R.; Bade, Aditya N.; Dash, Prasanta K.; Zhang, Gang; Poluektova, Larisa Y.; Gorantla, Santhi; Liu, Xin Ming; Ying, Tianlei; Yang, Feng; Wang, Yanping; Dimitrov, Dimiter S.; McMillan, JoEllyn M; Gendelman, Howard Eliot

doi:10.1016/j.biomaterials.2014.11.012

Cited by 59 publications

(60 citation statements)

References 46 publications

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“…There are various combination nanoformulations that have been reported (7,8,12,(25)(26)(27)(28)(29). Freeling et al produced solid lipid nanoparticles containing boosted lopinavir (L/r) and TFV.…”

Section: Discussionmentioning

confidence: 99%

“…Using macaque model, the investigators demonstrated enhanced penetration of the ARV drugs into lymph nodes compared to that of free drugs (10,27). Other investigators have used wet-milled technique to develop FTC crystals that boosted protease inhibitor efficacy in humanized mice when linked with folic acid (28,29). Recently, the LATTE-2 study, administering long-acting cabotegravir and rilpivirine intramuscularly every 2 months or every month, has announced positive results (30).…”

Section: Discussionmentioning

confidence: 99%

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An Enhanced Emtricitabine-Loaded Long-Acting Nanoformulation for Prevention or Treatment of HIV Infection

Mandal

Belshan

Holec

et al. 2017

Antimicrob Agents Chemother

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Among various FDA-approved combination antiretroviral drugs (cARVs), emtricitabine (FTC) has been a very effective nucleoside reverse transcriptase inhibitor. Thus far, FTC is the only deoxycytidine nucleoside analog. However, a major drawback of FTC is its large volume distribution (averaging 1.4 liters/kg) and short plasma half-life (8 to 10 h), necessitating a high daily dosage. Thus, we propose an innovative fabrication method of loading FTC in poly(lactic-co-glycolic acid) polymeric nanoparticles (FTC-NPs), potentially overcoming these drawbacks. Our nanoformulation demonstrated enhanced FTC loading (size of Ͻ200 nm and surface charge of Ϫ23 mV) and no to low cytotoxicity with improved biocompatibility compared to those with FTC solution. An ex vivo endosomal release assay illustrated that NP entrapment prolongs FTC release over a month. Intracellular retention studies demonstrate sustained FTC retention over time, with approximately 8% (24 h) to 68% (96 h) release with a mean retention of ϳ0.74 g of FTC/10 5 cells after 4 days. An in vitro HIV-1 inhibition study demonstrated that FTC-NP treatment results in a 50% inhibitory concentration (IC 50 ) ϳ43 times lower in TZM-bl cells (0.00043 g/ml) and ϳ3.7 times lower (0.009 g/ml) in peripheral blood mononuclear cells (PBMCs) than with FTC solution (TZM-bl cells, 0.01861, and PBMCs, 0.033 g/ml). Further, on primary PBMCs, FTC-NPs also illustrate an HIV-1 infection blocking efficacy comparable to that of FTC solution. All the above-described studies substantiate that FTC nanoformulation prolongs intracellular FTC concentration and inhibition of HIV infection. Therefore, FTC-NPs potentially could be a long-acting, stable formulation to ensure once-biweekly dosing to prevent or treat HIV infection.

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Section: Discussionmentioning

confidence: 99%

Section: Discussionmentioning

confidence: 99%

An Enhanced Emtricitabine-Loaded Long-Acting Nanoformulation for Prevention or Treatment of HIV Infection

Mandal

Belshan

Holec

et al. 2017

Antimicrob Agents Chemother

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“…The present study on FA-nanoATV/r treated NSG mice builds on prior PK and PD studies. The promising results lay a foundation to further develop nanoformulations for clinical use(Puligujja et al, 2015). …”

mentioning

confidence: 99%

Pharmacodynamics of folic acid receptor targeted antiretroviral nanotherapy in HIV-1-infected humanized mice

et al. 2015

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Long acting nanoformulated antiretroviral therapy (nanoART) can sustain plasma drug levels and improve its biodistribution. Cell targeted-nanoART can achieve this and bring drug efficiently to viral reservoirs. However, if such improvements affect antiretroviral responses remains unknown. To these ends, we tested folic acid (FA)-linked poloxamer407 coated-ritonavir boosted atazanavir (FA-nanoATV/r) nanoparticles for their ability to affect chronic HIV-1 infection in humanized mice. Following three every other week 100 mg/kg FA-nanoATV/r intramuscular injection administered to infected animals viral RNA was at or below the detection limit, cell-associated HIV-1p24 reduced and CD4+ T cell counts protected. The dosing regimen improved treatment outcomes more than two fold from what was reported for untargeted nanoATV/r. We posit that these nanoformulations have potential for translation to human use.

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“…18,19 This, taken together, makes FA conjugation suitable for MP targeting of ARV nanoparticles (nanoformulated antiretroviral therapy [nanoART]) for treatment of HIV-1 infection. 18,19 In particular, PK and pharmacodynamics (PD) studies have demonstrated that such targeting strategies improve drug biodistribution. However, efficacy determinations have entailed intensive tissue drug chemical analyses.…”

Section: Et Almentioning

confidence: 99%

“…However, efficacy determinations have entailed intensive tissue drug chemical analyses. 18,20 We posit that testing of targeting ligands can be sped by MRI evaluation of magnetite-labeled ARV particle tissue distributions.…”

Section: Et Almentioning

confidence: 99%

Magnetic resonance imaging of folic acid-coated magnetite nanoparticles reflects tissue biodistribution of long-acting antiretroviral therapy

Li¹,

Gendelman²,

Zhang³

et al. 2015

IJN

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Regimen adherence, systemic toxicities, and limited drug penetrance to viral reservoirs are obstacles limiting the effectiveness of antiretroviral therapy (ART). Our laboratory’s development of the monocyte-macrophage-targeted long-acting nanoformulated ART (nanoART) carriage provides a novel opportunity to simplify drug-dosing regimens. Progress has nonetheless been slowed by cumbersome, but required, pharmacokinetic (PK), pharmacodynamics, and biodistribution testing. To this end, we developed a small magnetite ART (SMART) nanoparticle platform to assess antiretroviral drug tissue biodistribution and PK using magnetic resonance imaging (MRI) scans. Herein, we have taken this technique a significant step further by determining nanoART PK with folic acid (FA) decorated magnetite (ultrasmall superparamagnetic iron oxide [USPIO]) particles and by using SMART particles. FA nanoparticles enhanced the entry and particle retention to the reticuloendothelial system over nondecorated polymers after systemic administration into mice. These data were seen by MRI testing and validated by comparison with SMART particles and direct evaluation of tissue drug levels after nanoART. The development of alendronate (ALN)-coated magnetite thus serves as a rapid initial screen for the ability of targeting ligands to enhance nanoparticle-antiretroviral drug biodistribution, underscoring the value of decorated magnetite particles as a theranostic tool for improved drug delivery.

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Pharmacodynamics of long-acting folic acid-receptor targeted ritonavir-boosted atazanavir nanoformulations

Cited by 59 publications

References 46 publications

An Enhanced Emtricitabine-Loaded Long-Acting Nanoformulation for Prevention or Treatment of HIV Infection

An Enhanced Emtricitabine-Loaded Long-Acting Nanoformulation for Prevention or Treatment of HIV Infection

Pharmacodynamics of folic acid receptor targeted antiretroviral nanotherapy in HIV-1-infected humanized mice

Magnetic resonance imaging of folic acid-coated magnetite nanoparticles reflects tissue biodistribution of long-acting antiretroviral therapy

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