NF-kappa B p100 (Lyt-10) is a component of H2TF1 and can function as an I kappa B-like molecule.

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Mol Cell Biol. 1993 October; 13(10): 6089-6101

NF-kappa B p100 (Lyt-10) is a component of H2TF1 and can function as an I kappa B-like molecule.

R I Scheinman, A A Beg and A S Baldwin Jr

Lineberger Comprehensive Cancer Center, University of North Carolina at Chapel Hill 27599.

ABSTRACT

NF-kappa B is an important transcription factor regulating expressionof genes involved in immune function, inflammation, and cellulargrowth control. NF-kappa B activity is induced by numerous stimuli,such as phorbol esters, B- and T-cell mitogens, the cytokinestumor necrosis factor and interleukin-1, and serum growth factors.The standard model for the induction of NF-kappa B activityinvolves the release of the transcription factor from a cytoplasmicinhibitor termed I kappa B, allowing translocation of NF-kappaB to the nucleus. I kappa B contains multiple copies of theso-called ankyrin repeat, which are apparently necessary forits function. Subunits comprising NF-kappa B and related bindingactivities are members of the Rel multigene family. Two suchsubunits, p50 and p52 (also called p50B), are proteolyticallyprocessed from precursors of 105 kDa (also called p105 and NFKB1)and 100 kDa (also called p100, NFKB2, and Lyt-10), respectively.Both contain N-terminal Rel-homologous domains as well as multiplecopies of C-terminal ankyrin repeats. We show here that NF-kappaB p100 is a component of the previously identified DNA-bindingactivity H2TF1. In addition, we show that p100 is localizedin the cytoplasm in HeLa cells, where it is associated withc-Rel, p50, or p65 (RelA). In transient-transfection assays,p100 represses the ability of NF-kappa B p65 to activate a kappaB-containing reporter construct. Transfection of p100 also resultsin a loss of nuclear p65 DNA binding to a kappa B probe, asmeasured by an electrophoretic mobility shift assay, and a lossof nuclear p65 immunoreactivity, as measured by immunoblotting.This loss of nuclear p65 is paralleled by a gain of p65 DNA-bindingactivity and immunoreactivity in the cytoplasm. We interpretthese data as demonstrating that p100 functions as an I kappaB-like molecule to sequester Rel family members in the cytoplasm.Proteolytic processing of p100 to the activator p52 is predictedto generate several new forms of Rel family heterodimers andtherefore represents a form of regulation of NF-kappa B activitydistinct from the classic I kappa B pathway.

Mol Cell Biol. 1993 October; 13(10): 6089-6101

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