Baylor Institute for Immunology Research: Autoimmunity through cytokine-induced dendritic cell activation.


	Dendritic Cell Based Cancer Vaccines
	Genes of Health: Signature of Health and Disease in Humans
	Human Dendritic Cell Biology
	Humouse: An In Vivo Model of the Human Immune System
	Infectious Diseases
	Understanding of Systemic Lupus Erythematosus
	Current BIIR Grants
	Key BIIR Papers

Key BIIR Papers

Banchereau, J., V. Pascual, and A.K. Palucka. 2004. Autoimmunity through cytokine-induced dendritic cell activation. Immunity 20:539-550.

We propose a model where autoimmunity can be viewed as a dynamic system driven by opposite vectors IFN-alpha/beta and TNF. These cytokines drive differentiation of distinct types of DCs, TNF-DCs, or IFN-DCs, which present different antigens leading to distinct autoimmune responses. When balanced, both cytokines synergize in protective immunity. When one of the cytokines prevails, autoimmunity occurs, Type I interferons (IFN-alpha/beta) playing a major role in systemic lupus erythematosus (SLE) and TNF playing a major role in rheumatoid arthritis. This model complements the Type 1/Type 2 paradigm. Therefore, immunity can be viewed as a dynamic system driven by two sets of opposite vectors: IFN-alpha/beta/TNF and IFN-gamma/IL-4.