Alexei Miagkov scite author profile

The transcription factor NF-B is a pivotal regulator of inf lammatory responses. While the activation of NF-B in the arthritic joint has been associated with rheumatoid arthritis (RA), its significance is poorly understood. Here, we examine the role of NF-B in animal models of RA. We demonstrate that in vitro, NF-B controlled expression of numerous inf lammatory molecules in synoviocytes and protected cells against tumor necrosis factor ␣ (TNF␣) and Fas ligand (FasL) cytotoxicity. Similar to that observed in human RA, NF-B was found to be activated in the synovium of rats with streptococcal cell wall (SCW)-induced arthritis. In vivo suppression of NF-B by either proteasomal inhibitors or intraarticular adenoviral gene transfer of super-repressor IB␣ profoundly enhanced apoptosis in the synovium of rats with SCW-and pristane-induced arthritis. This indicated that the activation of NF-B protected the cells in the synovium against apoptosis and thus provided the potential link between inf lammation and hyperplasia. Intraarticular administration of NF-kB decoys prevented the recurrence of SCW arthritis in treated joints. Unexpectedly, the severity of arthritis also was inhibited significantly in the contralateral, untreated joints, indicating beneficial systemic effects of local suppression of NF-B. These results establish a mechanism regulating apoptosis in the arthritic joint and indicate the feasibility of therapeutic approaches to RA based on the specific suppression of NF-B.

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Oncogenic Mutants of RON and MET Receptor Tyrosine Kinases Cause Activation of the β-Catenin Pathway

Danilkovitch-Miagkova¹,

Miagkov

Skeel³

et al. 2001

Molecular and Cellular Biology

147

118

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Specific Immunotherapy by Genetically Engineered APCs: The “Guided Missile” Strategy

Miagkov

et al. 2001

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We tested the hypothesis that APCs genetically engineered to present an Ag and to express Fas ligand (FasL) simultaneously can target and eliminate Ag-specific T cells. Transgenic T cells specific for influenza hemagglutinin (HA) were used as targets. We prepared recombinant vaccinia virus vectors (VVV) to transfer the gene constructs individually or simultaneously into APCs. We prevented unwanted viral replication by attenuating the VVVs with psoralen-UV light treatment. For presentation of the HA Ag, APCs were transduced with cDNA for HA flanked by sequences of the lysosome-associated membrane protein that direct efficient processing and presentation of the Ag by APCs. As a “warhead” for the APCs, we transduced them with the gene for FasL, which induces apoptosis of Fas-expressing activated T cells. To protect the transduced APCs from self-destruction by FasL, we transferred cDNA for a truncated form of Fas-associated death domain, which inhibits Fas-mediated cell death. Our results show that the engineered APCs effectively expressed the genes of interest. APCs transduced with VVV carrying all three gene constructs specifically killed HA-transgenic T cells in culture. Coculture with T cells specific for an unrelated Ag (OVA) had no significant effect. Our in vitro findings show that APCs can be genetically engineered to target and kill Ag-specific T cells and represent a promising novel strategy for the specific treatment of autoimmune diseases.

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Endogenous regulation of a therapeutic transgene restores homeostasis in arthritic joints

Miagkov¹,

Varley²,

Munford³

et al. 2002

J. Clin. Invest.

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The treatment of chronic inflammatory diseases is complicated by their unpredictable, relapsing clinical course. Here, we describe a new strategy in which an inflammation-regulated therapeutic transgene is introduced into the joints to prevent recurrence of arthritis. To this end, we designed a recombinant adenoviral vector containing a two-component, inflammation-inducible promoter controlling the expression of human IL-10 (hIL-10) cDNA. When tested in vitro, this system had a low-level basal activity and was activated four to five orders of magnitude by various inflammatory stimuli, including TNF-alpha, IL-1 beta, IL-6, and LPS. When introduced in joints of rats with recurrent streptococcal cell wall-induced arthritis, the IL-10 transgene was induced in parallel with disease recurrence and effectively prevented the influx of inflammatory cells and the associated swelling of the joints. Levels of inflammation-inducible hIL-10 protein within the joints correlated closely with the severity of recurrence. An endogenously regulated therapeutic transgene can thus establish negative feedback and restore homeostasis in vivo while minimizing host exposure to the recombinant drug.

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Granzyme B: Evidence for a role in the origin of myasthenia gravis

Casciola-Rosen

Miagkov

Nagaraju

et al. 2008

Journal of Neuroimmunology

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Specific Immunotherapy of Experimental Myasthenia Gravis in Vitro: The “Guided Missile” Strategy

Miagkov

et al. 2001

Cellular Immunology

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Endogenous regulation of a therapeutic transgene restores homeostasis in arthritic joints

Miagkov

Varley²,

Munford

et al. 2002

J. Clin. Invest.

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The treatment of chronic inflammatory diseases is complicated by their unpredictable, relapsing clinical course. Here, we describe a new strategy in which an inflammation-regulated therapeutic transgene is introduced into the joints to prevent recurrence of arthritis. To this end, we designed a recombinant adenoviral vector containing a two-component, inflammation-inducible promoter controlling the expression of human IL-10 (hIL-10) cDNA. When tested in vitro, this system had a low-level basal activity and was activated four to five orders of magnitude by various inflammatory stimuli, including TNF-α, IL-1β, IL-6, and LPS. When introduced in joints of rats with recurrent streptococcal cell wall–induced arthritis, the IL-10 transgene was induced in parallel with disease recurrence and effectively prevented the influx of inflammatory cells and the associated swelling of the joints. Levels of inflammation-inducible hIL-10 protein within the joints correlated closely with the severity of recurrence. An endogenously regulated therapeutic transgene can thus establish negative feedback and restore homeostasis in vivo while minimizing host exposure to the recombinant drug

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T cell receptor transgenic mice recognizing the immunodominant epitope of the Torpedo californica acetylcholine receptor

et al. 2002

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Myasthenia gravis (MG) is an autoimmune disease caused by T cell‐dependent antibody‐mediated reduction of acetylcholine receptors (AChR) at the neuromuscular junction. Immunization of animals with Torpedo californica AChR (TAChR) results in an experimental model of MG. We used the variable regions of α and β T cell receptor (TCR) genes recognizing an immunodominant peptide containing amino acids 146–162 from the α subunit of TAChR presented in the context of I‐Ab to generate TCR‐transgenic mice. We found that the transgenic TCR was strongly positively selected and that transgenic T cells proliferated robustly to the immunodominant peptide and TAChR. Unexpectedly, there was a variable paucity of B cells in the blood and spleen from transgenic mice, which averaged about 16% of peripheral blood lymphocytes, compared to 55% in wild‐type B6 mice. Unselected transgenic mice immunized with TAChR exhibited weak anti‐TAChR antibody responses. However, transgenic mice selected to have relatively higher B cell numbers produced anti‐TAChR titers equal to B6 mice and a predominance of Th1‐induced antibody isotypes were observed in certain experiments. The incidence and severity of clinical disease was variable following immunizations. These mice should be useful for studying the pathogenesis and treatment of MG.

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Alexei Miagkov

NF-κB activation provides the potential link between inflammation and hyperplasia in the arthritic joint

Oncogenic Mutants of RON and MET Receptor Tyrosine Kinases Cause Activation of the β-Catenin Pathway

Specific Immunotherapy by Genetically Engineered APCs: The “Guided Missile” Strategy

Endogenous regulation of a therapeutic transgene restores homeostasis in arthritic joints

Granzyme B: Evidence for a role in the origin of myasthenia gravis

Specific Immunotherapy of Experimental Myasthenia Gravis in Vitro: The “Guided Missile” Strategy

Endogenous regulation of a therapeutic transgene restores homeostasis in arthritic joints

T cell receptor transgenic mice recognizing the immunodominant epitope of the Torpedo californica acetylcholine receptor

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