Reductions in I kappa B epsilon and changes in NF-kappa B activity during B lymphocyte differentiation.

The levels and stability of IkappaBepsilon have been examined in unstimulated and stimulated splenic B cells and compared with that of IkappaBalpha and IkappaBbeta. Primary murine splenic B cells but not T cells were found to contain high levels of IkappaBepsilon protein, equivalent to levels of the abundant IkappaBalpha. Most agents that activate IkappaBalpha and IkappaBbeta degradation do not induce rapid degradation of IkappaBepsilon. Interestingly, however, the levels of IkappaBepsilon, but not of IkappaBalpha or IkappaBbeta, are dramatically reduced upon the stimulation of B cells both in vivo and in vitro. Since IkappaBepsilon exhibits substrate specificity for NF-kappaB Rel homodimers, this suggested the possibility that changes in NF-kappaB-responsive genes might also occur during this transition. Consistent with this hypothesis, we found that a NF-kappaB reporter construct sensitive to p65/RelA homodimers is activated at the time that IkappaBepsilon levels decline following B cell stimulation. In IgG(+) B cell lines, which contain low levels of IkappaBepsilon, this same reporter construct was inactive, suggesting that the increases in Rel homodimer activity that accompany B cell stimulation are transient. However, there are differences in the level of expression of NF-kappaB-responsive genes in these IgG(+) B cell lines compared with their IgM(+) counterparts. From these data, we conclude that there are transient changes in NF-kappaB activity due to reductions in IkappaBepsilon, which might contribute to long-term, persistent changes that accompany B cell differentiation. We propose an important role for IkappaBepsilon in the differential regulation of nuclear NF-kappaB activity in stimulated B cells.

Generation and preliminary characterization of an antibody library with preferential reactivity to human colorectal cancer cells as compared to normal human blood cells.

We are developing recombinant polyclonal antibody libraries (PCALs) reactive to human colorectal cancer cells as an anti-cancer therapeutic approach. To test the hypothesis that PCALs with preferential recognition of tumor cells as compared to normal cells could be generated, a Fab phage display library reactive to human colorectal cancer cell lines was absorbed with normal human blood cells. ELISA analysis of the absorbed Fab phage display library showed that 70% of tested clones reacted to colorectal cancer cells. Reactivity of the library to blood cells was reduced 4-10-fold, with many clones unreactive to one or more of the blood cell types. DNA fingerprint analysis of colorectal cancer-binding clones showed that the absorbed library remained polyclonal. The H and L chain V region gene pairs of the absorbed library were transferred in mass from the Fab phage display vector to a mammalian vector and expressed as IgG following transfection into Sp2/0 myeloma cells. ELISA analysis showed that 79% of transfectants expressed IgG and of those 74% were positive for binding to the SW480 human colorectal cancer cell line. A template of 95 SW480-reactive wells was assembled, designated Lib-Col2.1, and IgG purified from a consolidated mass culture. The purified Lib-Col2.1 IgG was compared to the clinically used anti-colorectal cancer mAb 17-1A, by ELISA and flow cytometry, for binding density on SW480 colorectal cancer cells and on normal human blood cells. The results showed that Lib-Col2.1 bound to SW480 cells at higher density than mAb 17-1A and that its binding to normal human blood cells was reduced 2.4-24-fold relative to an unabsorbed anti-SW480 serum. Furthermore, Lib-Col2.1 was more effective than mAb 17-1A at inhibiting the growth of SW480 cells in culture. These results suggest that a polyclonal antibody library with preferential reactivity to cancer cells as compared to normal cells could be generated.