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1.
J Invest Dermatol ; 131(10): 2040-8, 2011 Oct.
Article in English | MEDLINE | ID: mdl-21716322

ABSTRACT

We hypothesized that Ras proximate 1 (Rap1) functions as an additional target for farnesylthiosalicylic acid (FTS) or its derivatives, and that the inhibition of Rap1 in lymphocytes by these agents may represent a method for treating inflammatory disorders. Indeed, we found that FTS-amide (FTS-A) was able to inhibit the elicitation phase of delayed cutaneous hypersensitivity in vivo. This effect was associated with the inhibition of Rap1 more than with the inhibition of Harvey rat sarcoma viral oncogene (Ras). Moreover, FTS-A inhibited Rap1 and contact sensitivity far better than FTS. We suggest that FTS-A may serve as a possible therapeutic tool in contact sensitivity in particular and T-cell-mediated inflammation in general.


Subject(s)
Amides/pharmacology , Farnesol/analogs & derivatives , Salicylates/pharmacology , Telomere-Binding Proteins/metabolism , rap1 GTP-Binding Proteins/metabolism , Animals , Cell Membrane/metabolism , Disease Models, Animal , Farnesol/pharmacology , Female , Green Fluorescent Proteins/metabolism , Guanosine Triphosphate/metabolism , Humans , Immunohistochemistry/methods , Jurkat Cells , Lymphocytes/cytology , Mice , Mice, Inbred BALB C , Phospholipase D/metabolism , Shelterin Complex , Skin/pathology , T-Lymphocytes/cytology , Tumor Necrosis Factor-alpha/metabolism , ras Proteins/metabolism
2.
Inflammation ; 34(5): 314-8, 2011 Oct.
Article in English | MEDLINE | ID: mdl-20706780

ABSTRACT

There is substantial evidence suggesting that the Ras inhibitor farnesylthiosalicylic acid (FTS) may modulate various aspects of immune function and inflammation in addition to its well known anti-cancer activity. In this regard, we have recently shown that FTS suppresses T lymphocyte-mediated immune responses. Mast cells (MC), the main effector cells in the elicitation of the allergic response, are known to secrete granule-associated mediators and to release prostaglandins and cytokines on FCεRI-cross-linking, thereby contributing to the pathogenesis of allergic diseases. We hypothesized that MC act as an additional target for FTS. In the present work we analyze the effects of FTS on MC degranulation, prostaglandin release, and cytokine release in vitro, and on the elicitation of IgE-mediated MC dependent cutaneous allergic inflammation in vivo. First we have established that FTS inhibited Ras activation in MC. Next, we have shown that FTS preferentially inhibited prostaglandin (PG) D(2) and tumor necrosis factor (TNF)-α release without having any significant effect on MC ß-hexosaminidase secretion. In vivo administration of FTS inhibited the late phase of passive cutaneous anaphylaxis reaction. The time course of FTS-induced inhibition in vivo correlated with mediators release and not with degranulation. This data suggests that FTS may have an inhibitory effect on MC mediated allergic inflammation, and thus may be considered as a possible therapeutic modality.


Subject(s)
Farnesol/analogs & derivatives , Mast Cells/drug effects , Mast Cells/physiology , Prostaglandin D2/metabolism , Salicylates/pharmacology , Tumor Necrosis Factor-alpha/metabolism , Animals , Cell Degranulation/drug effects , Cell Degranulation/physiology , Cell Line , Farnesol/pharmacology , Female , Humans , Mast Cells/immunology , Mice , Mice, Inbred BALB C , Passive Cutaneous Anaphylaxis/drug effects , Passive Cutaneous Anaphylaxis/immunology , Passive Cutaneous Anaphylaxis/physiology , ras Proteins/metabolism
3.
Hepatol Res ; 34(4): 228-37, 2006 Apr.
Article in English | MEDLINE | ID: mdl-16520091

ABSTRACT

A simple reproducible and versatile small animal model for hepatitis B virus (HBV) infection is still unavailable. We have generated a simple transient liver-targeted transgenic mouse. Hydrodynamics tail vein injection of a head-to-tail dimer of adw HBV genome (pHBVadwHTD) into immunocompetent mice generated HBsAg and HBeAg expression in both serum and hepatocytes, followed by seroconversion. The injection of pHBVadwHTD into SCID mice generated prolonged HBsAg and HBeAg antigenemia and HBV viremia. Our results demonstrate that hydrodynamic injection of naked DNA could support the generation of HBV particles. We used this model for the assessment of anti-viral agents. Administration of our human monoclonal antibodies, HBV-Ab17(XTL) and HBV-Ab19(XTL), as well as Lamivudine (3TC) treatment suppressed HBV viremia. The model presented herein supports long and stable expression of HBV and will enable determination of various biological questions related to HBV life cycle, mutants and could enhance the development of anti-viral reagents.

4.
J Virol ; 80(6): 2654-64, 2006 Mar.
Article in English | MEDLINE | ID: mdl-16501075

ABSTRACT

Passive immunotherapy is potentially effective in preventing reinfection of liver grafts in hepatitis C virus (HCV)-associated liver transplant patients. A combination of monoclonal antibodies directed against different epitopes may be advantageous against a highly mutating virus such as HCV. Two human monoclonal antibodies (HumAbs) against the E2 envelope protein of HCV were developed and tested for the ability to neutralize the virus and prevent human liver infection. These antibodies, designated HCV-AB 68 and HCV-AB 65, recognize different conformational epitopes on E2. They were characterized in vitro biochemically and functionally. Both HumAbs are immunoglobulin G1 and have affinity constants to recombinant E2 constructs in the range of 10(-10) M. They are able to immunoprecipitate HCV particles from infected patients' sera from diverse genotypes and to stain HCV-infected human liver tissue. Both antibodies can fix complement and form immune complexes, but they do not activate complement-dependent or antibody-dependent cytotoxicity. Upon complement fixation, the monoclonal antibodies induce phagocytosis of the immune complexes by neutrophils, suggesting that the mechanism of viral clearance includes endocytosis. In vivo, in the HCV-Trimera model, both HumAbs were capable of inhibiting HCV infection of human liver fragments and of reducing the mean viral load in HCV-positive animals. The demonstrated neutralizing activities of HCV-AB 68 and HCV-AB 65 suggest that they have the potential to prevent reinfection in liver transplant patients and to serve as prophylactic treatment in postexposure events.


Subject(s)
Antibodies, Monoclonal/therapeutic use , Hepacivirus/immunology , Hepatitis C Antibodies/therapeutic use , Hepatitis C/prevention & control , Liver Transplantation/adverse effects , Viral Envelope Proteins/immunology , Amino Acid Sequence , Animals , Drug Evaluation, Preclinical , Humans , Mice , Molecular Sequence Data , Neutralization Tests , Recurrence , Sequence Analysis, DNA
5.
J Infect Dis ; 185(2): 153-61, 2002 Jan 15.
Article in English | MEDLINE | ID: mdl-11807688

ABSTRACT

The lack of small-animal models that are suitable for evaluation of agents used to treat infection with hepatitis C virus (HCV) severely hinders the assessment of potential new therapies for the disease. This study created such a model, termed the "HCV-Trimera" model. The HCV-Trimera model was developed by using lethally irradiated mice, reconstituted with SCID mouse bone marrow cells, in which human liver fragments infected ex vivo with HCV had been transplanted. Viremia (positive-strand HCV RNA levels) in HCV-Trimera mice peaked at approximately day 18 after liver transplantation, and an infection rate of 85% was reached. Viral replication in liver grafts was evidenced by the presence of specific negative-strand HCV RNA. The usefulness of this model for evaluation of anti-HCV agents was demonstrated by the ability of a small molecule (an HCV internal ribosomal entry site inhibitor) and an anti-HCV human monoclonal antibody (HCV AB(XTL)68) to reduce virus loads in HCV-Trimera mice in a dose-dependent manner.


Subject(s)
Antiviral Agents/therapeutic use , Disease Models, Animal , Hepatitis C/drug therapy , Animals , Hepatitis C/etiology , Hepatitis C/virology , Humans , Liver/virology , Mice , RNA, Viral/blood , Virus Replication
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