Abstract: The instant invention is based, at least in part on the identification of a new class of antibodies that result, e.g., in improved LT blocking capabilities. Methods of making the subject binding molecules and methods of using the binding molecules of the invention to antagonize LT?R signaling are also provided.

Abstract: The invention demonstrates that NFATp represses cartilage cell division and represses the chondrogenic program in cells and displays the properties of a tumor suppressor gene. In addition, the invention demonstrates that inhibition of NFATp activity promotes cartilage cell proliferation and differentiation. Methods for identifying modulators of cartilage growth and/or differentiation, using either NFATp-deficient cells or NFATp-containing indicator compositions, are provided. Methods of modulating cartilage cell growth and/or differentiation using agents that modulate the activity of NFATp are also provided. Methods for diagnosing disorders associated with aberrant cartilage cell growth and/or differentiation, by assessing a change in NFATp expression, are also provided.

Abstract: The invention demonstrates that NFATp and NFAT4 are required for the control of lymphocyte homeostasis and act as selective repressors of Th2 cells. The invention provides mice deficient in both NFATp and NFAT4 that exhibit a phenotype characteristic of increased Th2 cell activity. Methods for identifying modulators of Th2 cell activity, using either cells deficient in both NFATp and NFAT4, mice deficient in both NFATp and NFAT4, or indicator compositions containing both NFATp and NFAT4, are provided. Methods of regulating Th2 cell activity using agents that modulate the activity of NFATp and NFAT4 are also provided. Methods for diagnosing disorders associated with aberrant Th2 cell activity by assessing changes in NFATp and/or NFAT4 expression, are also provided.