In vivo anti-HIV activity of the heparin-activated serine protease inhibitor antithrombin III encapsulated in lymph-targeting immunoliposomes

Antithrombin and Its Role in Host Defense and Inflammation

Antithrombin (AT) is a natural anticoagulant that interacts with activated proteases of the coagulation system and with heparan sulfate proteoglycans (HSPG) on the surface of cells. The protein, which is synthesized in the liver, is also essential to confer the effects of therapeutic heparin. However, AT levels drop in systemic inflammatory diseases. The reason for this decline is consumption by the coagulation system but also by immunological processes. Aside from the primarily known anticoagulant effects, AT elicits distinct anti-inflammatory signaling responses. It binds to structures of the glycocalyx (syndecan-4) and further modulates the inflammatory response of endothelial cells and leukocytes by interacting with surface receptors. Additionally, AT exerts direct antimicrobial effects: depending on AT glycosylation it can bind to and perforate bacterial cell walls. Peptide fragments derived from proteolytic degradation of AT exert antibacterial properties. Despite these promising characteristics, therapeutic supplementation in inflammatory conditions has not proven to be effective in randomized control trials. Nevertheless, new insights provided by subgroup analyses and retrospective trials suggest that a recommendation be made to identify the patient population that would benefit most from AT substitution. Recent experiment findings place the role of various AT isoforms in the spotlight. This review provides an overview of new insights into a supposedly well-known molecule.

Hemostasis in elderly patients with human immunodeficiency virus (HIV) infection-Cross-sectional study

Introduction: Aging and chronic HIV infection are clinical conditions that share the states of inflammation and hypercoagulability. The life expectancy of the world population has increased in the last decades, bringing as complications the occurrence of diseases that undergoing metabolic, bone, cardiological, vascular and neurological alterations. HIV-infected patients experience these changes early and are living longer due to the success of antiretroviral therapy. The objectives of this study was to evaluate some changes in the plasma hemostatic profile of 115 HIV-reactive elderly individuals over 60 years old in the chronic phase of infection, and compare with 88 healthy uninfected elderly individuals. Plasma determinations of D-dimers, Fibrinogen, von Willebrand Factor, Antithrombin, Prothrombin Time, Activated Partial Thromboplastin Time, and platelet count were performed. In the HIV-reactive group, these variables were analyzed according to viral load, protease inhibitor use and CD4⁺ T lymphocyte values. After adjusted values for age and sex, the results showed higher levels of Antithrombin (103%; 88%, p = 0.0001) and Prothrombin Time activities (92.4%; 88.2%, p = 0.019) in the HIV group compared to the control group. We observed higher values of Fibrinogen in protease inhibitor users in both the male (p = 0.043) and female (p = 0.004) groups, and in the female HIV group with detected viral load (p = 0.015). The male HIV group with a CD4⁺ count> 400 cells / mm³ presented higher von Willebrand Factor values (p = 0.036). D-Dimers had higher values in the older age groups (p = 0.003; p = 0.042, respectively). Conclusion: Our results suggest that the elderly with chronic HIV infection with few comorbidities had a better hemostatic profile than negative control group, reflecting the success of treatment. Protease inhibitor use and age punctually altered this profile.

Uniquely altered transcripts are associated with immune preservation in HIV infection

The mechanisms underlying host HIV control hold much promise in the search for a functional HIV cure. We investigated the host genomic signatures in elite controllers or rapid progressors following recent infection and the correlates of immune reconstitution during combination antiretroviral therapy. We characterized the HIV-specific longitudinal host transcriptional response of peripheral blood mononuclear cells from elite controllers, rapid progressors, immune responders and non-responders using a RT-qPCR array in a cohort of recently HIV-infected Brazilian individuals. The elite controllers expressed unique transcripts early in infection that were closely associated with specialized cross-presentation between XCR1+ DCs and antigen-specific CD8+ T cells (XCL1). The natural suppression of HIV was also associated with the highly functional co-expression of cytokines and chemokines (CCL2, TNF and IL-10) concomitant with the maintenance of important anti-inflammatory and anticoagulant properties (Antithrombin III). Immune responders exhibited exclusively upregulated mRNAs possibly related to stem cell mobilization before combination antiretroviral therapy (neutrophil elastase). Our longitudinal approach to gene expression permitted us to discover previously unrecognized determinants that contribute to natural or antiretroviral-mediated HIV-1 immune control.

Respiratory protease/antiprotease balance determines susceptibility to viral infection and can be modified by nutritional antioxidants

The respiratory epithelium functions as a central orchestrator to initiate and organize responses to inhaled stimuli. Proteases and antiproteases are secreted from the respiratory epithelium and are involved in respiratory homeostasis. Modifications to the protease/antiprotease balance can lead to the development of lung diseases such as emphysema or chronic obstructive pulmonary disease. Furthermore, altered protease/antiprotease balance, in favor for increased protease activity, is associated with increased susceptibility to respiratory viral infections such as influenza virus. However, nutritional antioxidants induce antiprotease expression/secretion and decrease protease expression/activity, to protect against viral infection. As such, this review will elucidate the impact of this balance in the context of respiratory viral infection and lung disease, to further highlight the role epithelial cell-derived proteases and antiproteases contribute to respiratory immune function. Furthermore, this review will offer the use of nutritional antioxidants as possible therapeutics to boost respiratory mucosal responses and/or protect against infection.

Anti-HSV activity of serpin antithrombin III

Natural serine protease inhibitors (serpins) elicit sensing of a microbial cell intruder and activate an intrinsic cellular immune response in HIV and HCV infected cells. Here, we demonstrate in vitro inhibition of HSV with serpin antithrombin III (ATIII) early during infection pointing towards inhibition of an entry event. We also found reduction of mortality from 90% to 40% in an abrasion mice model demonstrating a strong reduction of infection in vivo. Our data also indicated that this treatment might be suitable for drug-resistant viruses since high inhibition of an acyclovir-resistant HSV-1 strain was found. Thus, an ATIII tropical treatment might be used for immunocompromised patients where prolonged treatment leads to drug resistant HSV-1 strains. Understanding how ATIII regulates HSV-1 infections may reveal new avenues for therapeutic interventions.

Influenza Virus H1N1 inhibition by serine protease inhibitor (serpin) antithrombin III

Endogenous serine protease inhibitors (serpins) are anti-inflammatory mediators with multiple biologic functions. Serpins are also part of the early innate immune response to viral infection that includes mannose binding lectins, soluble CD14, defensins and antimicrobial peptides. Recently, serpin antithrombin III (ATIII) was shown to have broad-spectrum antiviral activity against HIV, HSV and HCV. We tested ATIII's antiviral activity against a variety of influenza virus strains. In our studies we found strong in vitro inhibition of influenza virus A H1N1 isolates. Our data also demonstrate that ATIII potency was more than 100-fold that of ribavirin. We also found that inhibition was dependent on viral hemagglutinin with decreasing efficacy in the order of H1N1 > H3N2 > H5N1 >> Flu B. In vivo efficacy is currently still lacking demonstrating need for more advanced delivery methods for this biomolecule. Understanding how ATIII regulates influenza virus inhibition may reveal new avenues for therapeutic interventions.

Nanotechnology: a magic bullet for HIV AIDS treatment

Human immunodeficiency virus (HIV) infection has become devastating in last a few years. Nearly 7400 new infection cases are coming every day. Highly active antiretroviral therapy (HAART), which involves combination of at least three antiretroviral (ARV) drugs, has been used to extend the life span of the HIV-infected patients. HAART has played an important role to reduce mortality rate in the developed countries but in the developing countries condition is still worst with millions of people being infected by this disease. For the improvement of the situation, nanotechnology-based drug system has been explored for the HIV therapeutics. Nanosystems used for HIV therapeutics offer some unique advantage like enhancement of bioavailability, water solubility, stability, and targeting ability of ARV drugs. Main nanotechnology-based systems explored for HIV therapeutics are liposomes, nanoparticles, niosomes, polymeric micelles, and dendrimers. Present manuscript reviews conventional method of HIV therapeutics and recent advances in the field of nanotechnology-based systems for treatment of HIV-AIDS.

Emerging research and clinical development trends of liposome and lipid nanoparticle drug delivery systems

Liposomes are spherical-enclosed membrane vesicles mainly constructed with lipids. Lipid nanoparticles are loaded with therapeutics and may not contain an enclosed bilayer. The majority of those clinically approved have diameters of 50-300 nm. The growing interest in nanomedicine has fueled lipid-drug and lipid-protein studies, which provide a foundation for developing lipid particles that improve drug potency and reduce off-target effects. Integrating advances in lipid membrane research has enabled therapeutic development. At present, about 600 clinical trials involve lipid particle drug delivery systems. Greater understanding of pharmacokinetics, biodistribution, and disposition of lipid-drug particles facilitated particle surface hydration technology (with polyethylene glycol) to reduce rapid clearance and provide sufficient blood circulation time for drug to reach target tissues and cells. Surface hydration enabled the liposome-encapsulated cancer drug doxorubicin (Doxil) to gain clinical approval in 1995. Fifteen lipidic therapeutics are now clinically approved. Although much research involves attaching lipid particles to ligands selective for occult cells and tissues, preparation procedures are often complex and pose scale-up challenges. With emerging knowledge in drug target and lipid-drug distribution in the body, a systems approach that integrates knowledge to design and scale lipid-drug particles may further advance translation of these systems to improve therapeutic safety and efficacy.

Natural Killer cell-dependent and non-dependent anti-viral activity of 2-Cys Peroxiredoxin against HIV

2-cys peroxiredoxins (Prx), a group of anti-oxidative enzyme proteins, act directly on virally-infected cells to inhibit HIV-1 replication, and indirectly through destruction of HIV infected cells by stimulation of Natural Killer (NK) cell-mediated immune responses. We assayed for antibody-dependent NK cell mediated viral inhibition (ADCVI) using plasma from SIV-infected rhesus macaques. We found that Prx-1 strongly increased ADCVI in a dose-dependent manner, suggesting augmentation of NK cell killing. We also investigated the effect of Prx-1 on NK cell-independent HIV-1 and HIV-2 inhibition. We found that primary HIV isolates were potently inhibited at nM concentrations, regardless of viral clade, receptor usage or anti-retroviral drug resistance. During NK cell independent inhibition, we found that Prx-1 reversed the HIV-1 induced gene expression of Heat shock protein 90 kDa alpha (cystolic), class A member 2, (HSP90), a protein of the stress pathway. Prx-1 highly activated Cyclin-dependent kinase inhibitor 2B (CDKN2B), a gene of the TGF-β pathway, and Baculoviral IAP repeat-containing 2 (Birc-2), an anti-apoptotic gene of the NF-κB pathway. We identified gene-expression networks highly dependent on the NFκB and ERK1/2 pathways. Our findings demonstrate that Prx-1 inhibits HIV replication through NK cell-dependent and NK cell-independent mechanisms.