A synthetic TLR4 antagonist has anti-inflammatory effects in two murine models of inflammatory bowel disease

MM Fort, A Mozaffarian, AG Stöver… - The Journal of …, 2005 - journals.aai.org
MM Fort, A Mozaffarian, AG Stöver, JS Correia, DA Johnson, RT Crane, RJ Ulevitch…
The Journal of Immunology, 2005journals.aai.org
Current evidence indicates that the chronic inflammation observed in the intestines of
patients with inflammatory bowel disease is due to an aberrant immune response to enteric
flora. We have developed a lipid A-mimetic, CRX-526, which has antagonistic activity for
TLR4 and can block the interaction of LPS with the immune system. CRX-526 can prevent
the expression of proinflammatory genes stimulated by LPS in vitro. This antagonist activity
of CRX-526 is directly related to its structure, particularly secondary fatty acyl chain length. In …
Abstract
Current evidence indicates that the chronic inflammation observed in the intestines of patients with inflammatory bowel disease is due to an aberrant immune response to enteric flora. We have developed a lipid A-mimetic, CRX-526, which has antagonistic activity for TLR4 and can block the interaction of LPS with the immune system. CRX-526 can prevent the expression of proinflammatory genes stimulated by LPS in vitro. This antagonist activity of CRX-526 is directly related to its structure, particularly secondary fatty acyl chain length. In vivo, CRX-526 treatment blocks the ability of LPS to induce TNF-α release. Importantly, treatment with CRX-526 inhibits the development of moderate-to-severe disease in two mouse models of colonic inflammation: the dextran sodium sulfate model and multidrug resistance gene 1a-deficient mice. By blocking the interaction between enteric bacteria and the innate immune system, CRX-526 may be an effective therapeutic molecule for inflammatory bowel disease.
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