Olfactory neurons expressing the same odorant receptor converge to a small number of glomeruli in the olfactory bulb. In turn, mitral and tufted cells receive and relay this information to higher cortical regions. In other sensory systems, correlated neuronal activity is thought to refine synaptic connections during development. We asked whether the pattern of connections between olfactory sensory axons and mitral cell dendrites is affected when odor-evoked signaling is eliminated in mice lacking functional olfactory cyclic nucleotide-gated (CNG) channels. We demonstrate that olfactory sensory axons converge normally in the CNG channel mutant background. We further show that the pruning of mitral cell dendrites, although slowed during development, is ultimately unperturbed in mutant animals. Thus, the olfactory CNG channel-and by inference correlated neural activity--is not required for generating synaptic specificity in the olfactory bulb.
Treatment with exogenous interferon (IFN)-a is not effective in the majority of patients with chronic hepatitis B virus (HBV) infection. Recent evidence suggests that HBV has evolved strategies to block the nuclear translocation of signal transducer and activator of transcription (STAT) 1 to limit IFN-a-induced cellular antiviral responses. However, it remains unclear whether STAT1 translocation is impaired in chronic hepatitis B patients and what mechanisms are involved. Here we report that the expression of HBV polymerase (Pol) in human hepatic cell lines inhibited induction of IFN-stimulated genes and resulted in a weakened antiviral activity of IFN-a. Ectopic expression of Pol suppressed IFN-a-induced STAT1 serine 727 phosphorylation and STAT1/2 nuclear accumulation, whereas STAT1 tyrosine 701 phosphorylation, and STAT1-STAT2 heterodimer formation were not affected. Further studies demonstrated that Pol interacted with the catalytic domain of protein kinase C-d (PKC-d) and perturbed PKC-d phosphorylation and its association with STAT1, which resulted in the suppression of STAT1 Ser727 phosphorylation. Moreover, Pol was found to interfere with nuclear transportation of STAT1/2 by competitively binding to the region of importin-a5 required for STAT1/2 recruitment. Truncation analysis suggested that the terminal protein and RNase H domains of Pol were able to bind to PKC-d and importin-a5, respectively, and were responsible for the inhibition of IFN-a signaling. More importantly, the inhibition of STAT1 and PKC-d phosphorylation were confirmed in a hydrodynamicbased HBV mouse model, and the blockage of IFN-a-induced STAT1/2 nuclear translocation was observed in HBV-infected cells from liver biopsies of chronic HBV patients.Conclusions: These results demonstrate a role for Pol in HBV-mediated antagonization of IFN-a signaling and provide a possible molecular mechanism by which HBV resists the IFN therapy and maintains its persistence. (HEPATOLOGY 2013;57:470-482) C hronic hepatitis B (CHB) caused by hepatitis B virus (HBV) is a serious health problem worldwide. The mechanism by which chronic infection is established and maintained is unknown but is thought to be due, in part, to a suppressed host immune response. One key component of the host antiviral responses is the interferon (IFN) system. Viral infection of the host initiates the synthesis of type I IFNs, which consist predominantly of IFN-a and IFN-b (IFN-a/b). By binding to type I IFN receptors,
Objective This report presents tenofovir alafenamide (TAF) and elvitegravir (EVG) fabricated into nanoparticles (NPs) for subcutaneous (SubQ) delivery as prevention strategy. Design Prospective prevention study in hu-BLT mice. Methods Using an oil-in-water emulsion solvent evaporation technique, TAF+EVG drugs were entrapped together into NPs containing poly(lactic-co-glycolic acid) (PLGA). In vitro prophylaxis studies (IC90) compared NPs to drugs in solution. Humanized-BLT (n=5/group) mice were given 200 mg/kg SubQ, and vaginally challenged with HIV-1 (5×105 TCID50) 4 and 14 days (d) post-NP administration (PI). Control mice (n=5) were challenged at 4 d. Weekly plasma viral load (pVL) was performed using RT-PCR. Hu-BLT mice were sacrificed and lymph nodes were harvested for HIV-1 viral RNA detection by in situ hybridization (ISH). In parallel, CD34+ humanized mice (3/time point) compared tenofovir (TFV) and EVG drug levels in vaginal tissues from NPs and solution. TFV and EVG were analyzed from tissue using LC-MS/MS. Results TAF+EVG NPs were < 200 nm in size. In-vitro prophylaxis indicates TAF+EVG NPs IC90 was 0.002 μg/mL and TAF+EVG solution was 0.78 μg/mL. TAF+EVG NPs demonstrated detectable drugs for 14 days and 72 h for solution, respectively. All Hu-BLT control mice became infected within 14 d after HIV-1 challenge. In contrast, hu-BLT mice that received NPs and challenged at 4 d PI, 100% were uninfected, and 60% challenged at 14 d PI were uninfected (p = 0.007; Mantel-Cox test). ISH confirmed these results. Conclusions This proof-of-concept study demonstrated sustained protection for TAF+EVG NPs in a hu-BLT mouse model of HIV vaginal transmission.
Nanoencapsulation introduces long-acting phenomenon to tenofovir alafenamide and emtricitabine drug combination: A comparative pre-exposure prophylaxis efficacy study against HIV-1 vaginal transmission
Daily oral antiretroviral (ARV) drugs for pre-exposure prophylaxis (PrEP) has proven efficacy for diverse groups of high-risk individuals. However, daily dosing regimen has augmented nonadherence. These experiments comparatively investigated the long-acting (LA) PrEP potency of subcutaneous (SubQ) administrated tenofovir alafenamide (TAF) and emtricitabine (FTC) loaded nanoparticles (NPs) to solution in humanized (hu) mice. TAF+FTC NPs and TAF+FTC solution (each drug at 200 mg/kg) were administered to hu-CD34-NSG mice (n=3/time point) for plasma and tissue pharmacokinetic parameter estimation using LC-MS/MS. NP enhanced tissue ARV assimilation compared to plasma. The same dose was administered for PrEP efficacy in HIV-1 challenged hu-BLT mice (n=5/group). The hu-BLT mice were vaginally challenged with a transmission-founder (T/F) virus at 5 × 10 5 TCID 50 inoculation, on day 4, 7 and 14 post-SubQ treatments (PT) and were compared to infected-untreated-control hu-BLT mice. By 21 days PT, 100% TAF+FTC solution-treated and control-untreated mice were infected. However, TAF+FTC NPs resulted in significant (p=0.0002) protection from HIV-1 (day 4: 80%, day 7 and 14: 60%, respectively) compared to control mice. This proof-of-concept study demonstrated detectable TAF/FTC vaginal levels among TAF+FTC NP-treated hu-BLT mice correlating with prolonged PrEP efficacy, thus establishing long-acting TAF+FTC NPs as a potential PrEP modality.
The origins of human immunodeficiency virus type 1 (HIV-1) have been widely accepted to be the consequences of simian immunodeficiency viruses from wild chimpanzees (SIVcpz) crossing over to humans. However, there has not been any in vivo study of SIVcpz infection of humans. Also, it remains largely unknown why only specific SIVcpz strains have achieved crossspecies transmission and what transmission risk might exist for those SIVcpz strains that have not been found to infect humans. Closing this knowledge gap is essential for better understanding cross-species transmission and predicting the likelihood of additional cross-species transmissions of SIV into humans. Here we show that humanized bone marrow, thymus, and liver (hu-BLT) mice are susceptible to all studied strains of SIVcpz, including the inferred ancestral viruses of pandemic and nonpandemic HIV-1 groups M (SIVcpzMB897) and N (SIVcpzEK505) as well as strains that have not been found in humans (SIVcpzMT145 and SIVcpzBF1167). Importantly, the ability of SIVcpz to cross the interspecies barrier to infect humanized mice correlates with their phylogenetic distance to pandemic HIV-1. We also identified mutations of SIVcpzMB897 (Env G411R and G413R) and SIVcpzBF1167 (Env H280Q and Q380R) at 14 weeks postinoculation. Together, our results have recapitulated the events of SIVcpz cross-species transmission to humans and identified mutations that occurred during the first 16 weeks of infection, providing in vivo experimental evidence that the origins of HIV-1 are the consequence of SIVcpz crossing over to humans. This study also revealed that SIVcpz viruses whose inferred descendants have not been found in humans still have the potential to cause an HIV-1-like zoonosis. IMPORTANCEIt is believed that the origins of HIV-1 are the consequence of SIV from wild chimpanzees crossing over to humans. However, the origins of HIV-1 have been linked back to only specific SIVcpz strains. There have been no experiments that directly test the in vivo cross-species transmissibility of SIVcpz strains to humans. This is the first in vivo study of SIVcpz cross-species transmission. With the humanized-BLT mouse model, we have provided in vivo experimental evidence of multiple SIVcpz strains crossing over to humans and identified several important mutations of divergent SIVcpz strains after long-term replication in human cells. We also found that the cross-species transmission barrier of SIVcpz to humans correlates with their phylogenetic distance to pandemic HIV-1 group M. Importantly, this work provides evidence that SIVcpz viruses, whose inferred descendants have not been found in humans, still have the potential to cause a future HIV-1-like zoonotic outbreak. H uman immunodeficiency virus type 1 (HIV-1) infections have claimed millions of human lives since the pandemic began in 1981, and HIV-1 still infects about 2.3 million people every year (1, 2). Based on comparative phylogenetic analyses of HIV-1 and simian immunodeficiency viruses from chimpanzee (SIVcpz), it has ...
Viral nanoparticles (VNPs) have shown great potential as platforms for biomedical applications. Before using VNPs for further biomedical applications, it is important to clarify their biological behavior in vivo, which is rare for rod-like VNPs. In this paper, a study of tobacco mosaic virus (TMV), a typical rod-like VNP, is performed on blood clearance kinetics, biodistributions in both normal and tumor-bearing mice, histopathology and cytotoxicity. TMV was radiolabeled with (125)I using Iodogen method for in vivo quantitative analysis and imaging purpose. In the normal mice, the accumulation of TMV in the immune system led to a rapid blood clearance. The uptake of TMVs in the liver was less than that in the spleen, which is opposite to the results observed in the case of spherical VNPs. No signs of overt toxicity were observed in examined tissues according to the results of histological analysis. In addition, similar biodistribution patterns were observed in U87MG tumor-bearing mice.
Long-acting parenteral combination antiretroviral loaded nano-drug delivery system to treat chronic HIV-1 infection: A humanized mouse model study
Human immunodeficiency virus (HIV) patients are often diagnosed in the chronic stage of HIV/AIDS. Combination antiretroviral therapy (cART) has improved quality of life for HIV-infected patients. Present study describes a novel long-acting parenteral formulation of combination antiretroviral (cARV) loaded nano-drugs for treating chronic HIV-1 (cHIV) in a humanized-BLT (hu-BLT) mice model. The cARV (elvitegravir+tenofovir alafenamide+emtricitabine; EVG+TAF+FTC) drugs (mimicking marketed Genvoya one-pill for HIV-treatment) were encapsulated in poly (lactic-co-glycolic acid) nanoparticles (NPs). To establish cHIV, hu-BLT mice were intravaginally challenged with HIV-1 and maintained for 15 weeks. Plasma viral load (pVL) was monitored by RT-PCR to confirm cHIV. Baseline pVL (week 15) was comparable between treated (n = 10) and control (n = 5) mice groups. Subsequently, treatment hu-BLT mice received 3 subcutaneous doses of cARV NPs (417 mg/kg per dose; n = 10), biweekly, and a fourth/terminal dose a week later. Prior to each treatment and on sacrifice (week 24), pVL was determined. Within three subcutaneous doses of cARV NPs, a non-detectable pVL was established (week 19) and continued until week 22. After the establishment of a non-detectable pVL (week 19-22), 4 treated-mice were sacrificed for tissue drug concentration determination by LC-MS/MS analysis. A considerable amount of cARV was detected at the HIV-infection target and reservoir organs. Subsequently, pVL rebounded comparable to control group by week 24, (7 weeks post-terminal dosage). The present study demonstrated cARV NPs augments sustained ARV efficacy in the cHIV humanized-mouse model. Therefore, cARV NPs could be a novel delivery system to treat cHIV patients, by overcoming drawbacks of conventional cART.
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