Brenner Max, Laragione Teresina, Shah Anish, Mello Adriana, Remmers Elaine F, Wilder Ronald L, Gulko Pércio S
Feinstein Institute for Medical Research, Manhasset, New York 11030, USA.
Arthritis Rheum. 2012 May;64(5):1369-78. doi: 10.1002/art.33468.
Cia3 is a locus on rat chromosome 4 that regulates severity and joint damage in collagen- and pristane-induced arthritis (CIA and PIA). This study was undertaken to refine the Cia3 gene-containing interval toward gene identification and obtain insights into its mode of action.
Five DA.F344(Cia3) subcongenic rat strains were generated and studied using the PIA and CIA models. Levels of antibodies against type II collagen (both allo- and autoantibodies) were measured. Joints and synovial tissue were collected 32 days after the induction of PIA (chronic stage) for histologic and quantitative polymerase chain reaction analysis of interleukin-1β (IL-1β) and matrix metalloproteinase (MMP) levels.
Three subcongenic strains sharing the centromeric Cia3d interval were protected and 2 subcongenic strains sharing the telomeric Cia3g interval, which did not overlap with Cia3d, were also protected, developing significantly less severe CIA and PIA. Normal joint architecture was preserved in DA.F344(Cia3) and DA.F344(Cia3d) congenic rats with PIA, while DA rats had pronounced synovial hyperplasia, angiogenesis, inflammatory infiltration, and bone or cartilage erosions. The DA.F344(Cia3d) and DA.F344(Cia3g) strains had significantly lower synovial levels of IL-1β (5-fold and nearly 2-fold, respectively [the latter not reaching statistical significance]), MMP-1 (expressed predominantly in DA rats), MMP-3 (79-fold and 8-fold, respectively), and MMP-14 (21-fold and 1.4-fold, respectively) and reduced levels of pathogenic autoantibodies against type II collagen, compared with DA rats.
We have identified 2 new arthritis severity and articular damage loci within Cia3. These loci regulate pathogenic processes in 2 different models of rheumatoid arthritis, and the identification of these genes has the potential to generate new targets for therapies aimed at reducing disease severity and articular damage, and may additionally have prognostic value.
Cia3是大鼠4号染色体上的一个基因座,可调节胶原诱导性关节炎和 pristane诱导性关节炎(CIA和PIA)的严重程度及关节损伤。本研究旨在进一步明确包含Cia3基因的区间以进行基因鉴定,并深入了解其作用模式。
构建了5个DA.F344(Cia3)亚同源基因大鼠品系,并使用PIA和CIA模型进行研究。检测了抗II型胶原抗体(同种抗体和自身抗体)的水平。在诱导PIA 32天后(慢性期)收集关节和滑膜组织,用于白细胞介素-1β(IL-1β)和基质金属蛋白酶(MMP)水平的组织学分析和定量聚合酶链反应分析。
共享着丝粒Cia3d区间的3个亚同源基因品系受到保护,共享端粒Cia3g区间(与Cia3d不重叠)的2个亚同源基因品系也受到保护,其CIA和PIA的严重程度明显减轻。患有PIA的DA.F344(Cia3)和DA.F344(Cia3d)同源基因大鼠的关节结构保持正常,而DA大鼠则出现明显的滑膜增生、血管生成、炎症浸润以及骨或软骨侵蚀。与DA大鼠相比,DA.F344(Cia3d)和DA.F344(Cia3g)品系的滑膜中IL-1β水平显著降低(分别降低5倍和近2倍[后者未达到统计学意义])、MMP-1(主要在DA大鼠中表达)、MMP-3(分别降低79倍和8倍)和MMP-14(分别降低21倍和1.4倍),并且针对II型胶原的致病性自身抗体水平降低。
我们在Cia3内鉴定出2个新的关节炎严重程度和关节损伤基因座。这些基因座在类风湿关节炎的2种不同模型中调节致病过程,鉴定这些基因有可能为旨在降低疾病严重程度和关节损伤的治疗产生新靶点,并且可能还具有预后价值。