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IL-1Ra Production (il-1ra + production)

Distribution by Scientific Domains
Medical Sciences100%

Selected Abstracts

A preliminary in vitro study into the use of IL-1Ra gene therapy for the inhibition of intervertebral disc degeneration

INTERNATIONAL JOURNAL OF EXPERIMENTAL PATHOLOGY, Issue 1 2006
Christine L. Le Maitre
Summary Conventional therapies for low back pain (LBP) are purely symptomatic and do not target the cause of LBP, which in approximately 40% of cases is caused by degeneration of the intervertebral disc (DIVD). Targeting therapies to inhibit the process of degeneration would be a potentially valuable treatment for LBP. There is increasing evidence for a role for IL-1 in DIVD. A natural inhibitor of IL-1 exists, IL-1Ra, which would be an ideal molecular target for inhibiting IL-1-mediated effects involved in DIVD and LBP. In this study, the feasibility of ex vivo gene transfer of IL-1Ra to the IVD was investigated. Monolayer and alginate cultures of normal and degenerate human intervertebral disc (IVD) cells were infected with an adenoviral vector carrying the IL-1Ra gene (Ad-IL-1Ra) and protein production measured using an enzyme-linked immunosorbent assay. The ability of these infected cells to inhibit the effects of IL-1 was also investigated. In addition, normal and degenerate IVD cells infected with Ad-IL-1Ra were injected into degenerate disc tissue explants and IL-1Ra production in these discs was assessed. This demonstrated that both nucleus pulposus and annulus fibrosus cells infected with Ad-IL-1Ra produced elevated levels of IL-1Ra for prolonged time periods, and these infected cells were resistant to IL-1. When the infected cells were injected into disc explants, IL-1Ra protein expression was increased which was maintained for 2 weeks of investigation. This in vitro study has shown that the use of ex vivo gene transfer to degenerate disc tissue is a feasible therapy for the inhibition of IL-1-mediated events during disc degeneration. [source]

Interleukin-1 gene cluster variants with innate cytokine production profiles and osteoarthritis in subjects from the Genetics, Osteoarthritis and Progression Study

ARTHRITIS & RHEUMATISM, Issue 4 2010
Ingrid Meulenbelt
Objective To assess whether genetic variation in the interleukin-1 (IL-1) gene cluster contributes to familial osteoarthritis (OA) by influencing innate ex vivo production of IL-1, or IL-1 receptor antagonist (IL-1Ra). Methods Innate ex vivo IL-1, and IL-1Ra production upon lipopolysaccharide (LPS) stimulation of whole blood cells was measured in subjects from the Genetics, Osteoarthritis and Progression (GARP) Study, which includes sibling pairs in which at least one sibling has symptomatic OA at multiple sites. Radiographic OA (ROA) was assessed by Kellgren/Lawrence score. Subjects from the GARP Study and controls from the Rotterdam Study were genotyped for 7 single-nucleotide polymorphisms (SNPs) encompassing the IL-1 gene cluster on chromosome 2q13. Linkage disequilibrium analysis and genotype and haplotype association analysis were performed to assess the relationship between the IL-1 gene cluster SNPs, innate ex vivo cytokine production, and OA. Results Among subjects in the GARP Study, the haplotype variable-number tandem repeat in intron 2/T+8006C/T+11100C 2/2/1 of the IL1RN gene was significantly associated with reduced innate ex vivo bioavailability of IL-1, upon LPS stimulation (P = 0.026) and with ROA at the highest number of joint locations. Conclusion These results show that genetic variation at the IL-1 gene cluster is associated with lower IL-1, bioavailability and with OA at a large number of joint locations. The data further indicate that, among subjects with OA affecting the highest number of joints, the innate immune system may be activated, thereby obscuring possible underlying mechanisms. [source]

Enhanced Th1 and Th17 responses and arthritis severity in mice with a deficiency of myeloid cell,specific interleukin-1 receptor antagonist

ARTHRITIS & RHEUMATISM, Issue 2 2010
Céline Lamacchia
Objective The balance between interleukin-1 (IL-1) and its specific inhibitor, the IL-1 receptor antagonist (IL-1Ra), plays a major role in the development of arthritis. The purpose of this study was to investigate the role of IL-1Ra produced specifically by myeloid cells in the control of collagen-induced arthritis (CIA) by using myeloid cell,specific IL-1Ra,deficient mice (IL-1Ra,M). Methods IL-1Ra,M mice were generated by using the loxP/Cre recombinase system. CIA was induced in IL-1Ra,M mice and littermate control mice by a single immunization with bovine type II collagen (CII) in Freund's complete adjuvant. Arthritis severity was assessed by clinical and histologic scoring. Draining lymph node (DLN) cell responses were examined ex vivo, and ankle extracts were used in the quantification of cytokines and chemokines. Results Clinical and histopathologic evaluations revealed an early disease onset and a severe form of CIA in IL-1Ra,M mice. This was characterized by increased production of interferon-, (IFN,) and IL-17 by CII-stimulated DLN cells. We also observed that the CII-specific CD4+ T cell response shifted in vivo, from a dominant Th1 response early in the course of the arthritis to the presence of both Th1 and Th17 cytokines later in the disease course. Interestingly, IL-1Ra levels were higher in the arthritic joints of IL-1Ra,M mice as compared with the controls, indicating that nonmyeloid cells strongly contribute to the local production of IL-1Ra. However, this enhanced IL-1Ra production was not sufficient to limit joint inflammation and tissue damage. Conclusion Our results suggest that myeloid cell,derived IL-1Ra plays a critical role in the control of the development and the severity of CIA by modulating Th1 and Th17 responses in lymphoid organs. [source]

Biological Reactions Resulting from Endotoxin Adsorbed on Dialysis Membrane: An In Vitro Study

ARTIFICIAL ORGANS, Issue 2 2004
Kenji Tsuchida
Abstract:, Some types of dialysis membrane are known to adsorb endotoxin (ET). It is suggested that the biocompatibility of dialysis membrane is enhanced by adsorption and inhibition of ET. This study attempts to clarify the membrane-mediated biological reaction of the ET that is adsorbed to a dialysis membrane. After a dialysis circuit was prepared, contaminated dialysate was introduced on the dialysate side of a polyether polymer alloy (PEPA) membrane that adsorbs ET while saline solution or blood were introduced on the blood side, and the difference in ET adsorption between the two set-ups was measured. Further, the side filled with blood was left standing for 2 h, after which the changes in the amount of interleukin 1 receptor antagonist (IL-1Ra) produced from the whole blood were also assayed. Significantly more ET was adsorbed to the dialysis membrane when blood rather than saline was on the other side. In addition, the IL-1Ra production from the dialysis membrane that adsorbed ET was significantly higher. The ET adsorbed to the dialysis membrane may influence a living body even if it does not pass through the membrane. Accordingly, it is difficult to assume that the adsorption of ET to the membrane enhances its biocompatibility. [source]