Induced arthritis in rats. Rats were treated with mBSA 3 days after intraarticular injection of PBS, DMRI-C + MB12/22 DNA or DMRI-C + control DNA. Saline-treated groups represent a negative control group in order to show a normal synovia. Three days later, animals were euthanized and synovia tissues were analyzed. Note the synovial hyperplasia and leukocyte infiltration in the mBSA alone, mBSA + DMRI-C treated rats, as compared with the clearly milder synovial alterations of synovium in the DMRI-C + MB12/22 DNA rat. Original magnification 2506. A inhibitor tissue damage score was determined as the degree of synovial hyperplasia, cell infiltration, vascular lesions, and tissue fibrosis. Epigenetics values are the mean 6 SD of 5 rats per group. (*): P values less than or equal to 0.02 were considered significant. doi:10.1371/journal.pone.0058696.gAIA induced in rats represents a good model of monoarthritis and its onset and maintenance is mainly due to local activation of the complement system [34,35]. Complement involvement in AIA is confirmed in the present study by the observation of marked deposition of C3 and C9 in the synovial tissue of immunized animal receiving booster intrarticular injection of BSA. The finding of reduced deposits of C9 in rats that had received intraarticularly plasmid vector encoding MB12/22 prior to BSA injection is a clear indication that the locally produced antibody was able to prevent to a large extent complement activation. Asexpected, the neutralizing effect of MB12/22 directed against C5 was restricted to the terminal pathway and did not affect C3 deposition. The milder manifestation of arthritis observed in rats treated with the plasmid vector confirm our previous observation that the activation products of the late complement components including C5a and C5b-9 are mainly responsible for the inflammatory process developing in the knee joints in rats undergoing AIA. Overall these findings support the beneficial effect of local neutralization of complement activation to control joint inflam-Anti-C5 DNA Therapy for Arthritis Preventionmation. We believe that the intrarticular injection of plasmid vector encoding recombinant antibodies may be adopted as a novel preventive approach to treat monoarthritis as an alternative to local treatment with antibodies commonly used in this form of arthritis [36,37] with the advantages of the lower cost and the longer persistence of antibody production.Author ContributionsConceived and designed the experiments: PD PM RM FT. Performed the experiments: PD FZ LDM FF. Analyzed the data: PD PM FF FT. Wrote the paper: PD PM DS FT.
In the neuromuscular system, a dynamic interaction occurs among motor neurons, Schwann cells and muscle fibers. Motor neuron-derived agrin, for instance, can induce the formation of the neuromuscular junction (NMJ) [1,2], while signals from skeletal muscle fibers and Schwann cells are able to regulate the survival of motor neurons [3,4]. The large variety of neurotrophic factors that can support motor neuron survival in culture and in animal models of nerve injury indicates that developing and postnatal motor neurons depend upon cooperation of these molecules [5?]. Recent studies show that genetic deletion of a single, or even multiple, growth factors, only lead to a partial loss of motor neurons [9?1]. This implies that motor neurons may be affected by numerous muscle fiber- and Schwann cell-derived survival factors. Equally, this may also indicate that there are distinc.Induced arthritis in rats. Rats were treated with mBSA 3 days after intraarticular injection of PBS, DMRI-C + MB12/22 DNA or DMRI-C + control DNA. Saline-treated groups represent a negative control group in order to show a normal synovia. Three days later, animals were euthanized and synovia tissues were analyzed. Note the synovial hyperplasia and leukocyte infiltration in the mBSA alone, mBSA + DMRI-C treated rats, as compared with the clearly milder synovial alterations of synovium in the DMRI-C + MB12/22 DNA rat. Original magnification 2506. A tissue damage score was determined as the degree of synovial hyperplasia, cell infiltration, vascular lesions, and tissue fibrosis. Values are the mean 6 SD of 5 rats per group. (*): P values less than or equal to 0.02 were considered significant. doi:10.1371/journal.pone.0058696.gAIA induced in rats represents a good model of monoarthritis and its onset and maintenance is mainly due to local activation of the complement system [34,35]. Complement involvement in AIA is confirmed in the present study by the observation of marked deposition of C3 and C9 in the synovial tissue of immunized animal receiving booster intrarticular injection of BSA. The finding of reduced deposits of C9 in rats that had received intraarticularly plasmid vector encoding MB12/22 prior to BSA injection is a clear indication that the locally produced antibody was able to prevent to a large extent complement activation. Asexpected, the neutralizing effect of MB12/22 directed against C5 was restricted to the terminal pathway and did not affect C3 deposition. The milder manifestation of arthritis observed in rats treated with the plasmid vector confirm our previous observation that the activation products of the late complement components including C5a and C5b-9 are mainly responsible for the inflammatory process developing in the knee joints in rats undergoing AIA. Overall these findings support the beneficial effect of local neutralization of complement activation to control joint inflam-Anti-C5 DNA Therapy for Arthritis Preventionmation. We believe that the intrarticular injection of plasmid vector encoding recombinant antibodies may be adopted as a novel preventive approach to treat monoarthritis as an alternative to local treatment with antibodies commonly used in this form of arthritis [36,37] with the advantages of the lower cost and the longer persistence of antibody production.Author ContributionsConceived and designed the experiments: PD PM RM FT. Performed the experiments: PD FZ LDM FF. Analyzed the data: PD PM FF FT. Wrote the paper: PD PM DS FT.
In the neuromuscular system, a dynamic interaction occurs among motor neurons, Schwann cells and muscle fibers. Motor neuron-derived agrin, for instance, can induce the formation of the neuromuscular junction (NMJ) [1,2], while signals from skeletal muscle fibers and Schwann cells are able to regulate the survival of motor neurons [3,4]. The large variety of neurotrophic factors that can support motor neuron survival in culture and in animal models of nerve injury indicates that developing and postnatal motor neurons depend upon cooperation of these molecules [5?]. Recent studies show that genetic deletion of a single, or even multiple, growth factors, only lead to a partial loss of motor neurons [9?1]. This implies that motor neurons may be affected by numerous muscle fiber- and Schwann cell-derived survival factors. Equally, this may also indicate that there are distinc.
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