Reaction of bacterium-primed murine T cells to cartilage components: a clue for the pathogenesis of arthritis?

Although different models for rheumatoid arthritis have been studied, the pathogenesis in humans remains unknown. A possible mechanism is the crossreactivity between bacterial components and the target-tissue, the cartilage. The existence of this crossreactivity is supported by various data from clinical and experimental studies. Here we provide direct evidence that priming in vivo with cell wall fragments of Streptococcus pyogenes or Escherichia coli can induce a cellular and humoral anti-cartilage response in Balb/c mice in vitro. T cells isolated from these mice can be stimulated in vitro to proliferate by a variety of antigens among which are the priming bacterium, an unrelated bacterium, small bacterial components and diverse antigens of cartilagenous origin. In bacterium-primed mice antibodies were also detected that displayed a reactivity to cartilage extract besides the reactivity to bacteria. A crossreactive response occurred in vivo in certain circumstances: a delayed type hypersensitivity reaction could be elicited in cell-wall-primed mice by challenge with cartilage extract. For the expression of this crossreactive response in vivo however, it was obligatory to attenuate the mouse's suppressor-circuit. In this paper we would suggest a mechanism for the pathology of chronic arthritis, based on repeated challenges with different bacterial stimuli.