Abstract: An assay for determining compounds that inhibit activity of a BCl-2 protein, or affect conversion of Bcl-2 from an antiapoptotic to a proapoptotic form are described. In addition, compounds that modulate the function of anti-apoptotic proteins such as Bcl-2 and related Bcl-2 family members are identified.

Abstract: Methods of using apogossypol and its derivatives for treating inflammation is disclosed. Also, there is described a group of compounds having structure A, or a pharmaceutically acceptable salt, hydrate, N-oxide, or solvate thereof are provided: wherein each R is independently selected from the group consisting of H, C(O)X, C(O)NHX, NH(CO)X, SO2NHX, and NHSO2X, wherein X is selected from the group consisting of an alkyl, a substituted alkyl, an aryl, a substituted aryl, an alkylaryl, and a heterocycle. Compounds of group A may be used for treating various diseases or disorders, such as cancer.

Abstract: A novel human member of the Bcl-2 family Bcl-B has been identified, which is closest in amino-acid sequence homology to the Boo (Diva) protein. The Bcl-B protein is widely expressed in adult human tissues. The Bcl-B protein modulates apoptosis. Bcl-B also binds Bcl-2, BCI-XL, and Bax but not Bak. Bcl-B displays a unique pattern of selectivity for binding and regulating the function of other members of the Bcl-2 family.

Abstract: The invention provides a method of identifying an effective compound that modulates the binding of Humanin to Bax or Bid. The invention also provides a method of identifying an effective compound that modulates an activity of Bax or Bid. In addition, the invention provides a method of identifying a Humanin-like compound that binds to Bax or Bid or modulates an activity of Bax or Bid, or inhibits the apoptotic activity of Bax or Bid. The invention further provides an isolated polypeptide containing a mitochondrial-derived form of Humanin (SEQ ID NO:3) or a functional fragment thereof where the fragment contains the methionine at position 16 of SEQ ID NO:3.

Abstract: In accordance with the present invention, there are provided novel Siah-Mediated-Degradation-Proteins (SMDPs) and/or SCF-Complex Proteins (SCPs). Nucleic acid sequences encoding such proteins and assays employing same are also disclosed. The invention SMDPs and/or SCPs can be employed in a variety of ways, for example, for the production of anti-SMDP and/or SCP antibodies thereto, in therapeutic compositions, and methods employing such proteins and/or antibodies for drug screening, functional genomics and other applications. Also provided are transgenic non-human mammals that express the invention protein. Also provided are compositions and methods for targeting the destruction of selected polypeptides in eukaryotic cells based on the ubiquitin-independent mechanism by which ornithine decarboxylase is degraded by the 26S proteasome.

Abstract: Compounds that bind to Bfl-1 as well as conjugates of such compounds are provided. Various embodiments additionally provide methods of using such compounds to identify additional anti-apoptotic Bfl-1 binding compounds. Methods of using such compounds to increase apoptosis in a cell are also provided.

Abstract: Compounds that modulate the function of anti-apoptotic proteins such as Bcl-2 and Bcl-XL are identified. These compounds have the ability to convert the activity of Bcl-2-family member proteins from anti-apoptotic to pro-apoptotic. Methods for inducing apoptosis are described, together with methods for identifying molecules that induce apoptosis through interaction with Bcl-2-family members.

Abstract: The invention provides isolated agents having novel chemical structures and possessing superior activity as derepressors of IAP inhibited caspase. The invention further provides a method of derepressing an IAP-inhibited caspase. The invention further provides assay methods employing labeled compounds of the invention, especially fluorescent labeled compounds.

Abstract: In accordance with the present invention, there are provided novel Death Domain (DD), Death Effector Domain (DED) and NB-ARC domain proteins. The invention also provides nucleic acid molecules encoding DD, DED and NB-ARC domain proteins, vectors containing these nucleic acid molecules and host cells containing the vectors. The invention also provides antibodies that can specifically bind to invention DDs, DEDs or NB-ARC domains. Such DDs, DEDs and NB-ARC domains and/or anti-DD, anti-DED or anti-NB-ARC domain antibodies are useful for discovery of drugs that suppress infection, autoimmunity, inflammation, allergy, allograft rejection, sepsis, and other diseases.

Abstract: Methods for screening for inhibitors of endoplasmic reticulum (ER) stress are provided. These methods involve the addition of thapsigargin, which induces ER stress, and a test agent to mammalian cells in multi-well plates. Cell survival can be readily monitored by measuring intracellular ATP content using a bioluminescent reagent. Screening a commercially available library of 50,000 compounds led to the identification of 93 hit compounds that were subjected to secondary assays to confirm their ability to rescue cells from thapsigargin-induced cell death.

Abstract: In accordance with the present invention, there are provided novel Siah-Mediated-Degradation-Proteins (SMDPs) and/or SCF-Complex Proteins (SCPs). Nucleic acid sequences encoding such proteins and assays employing same are also disclosed. The invention SMDPs and/or SCPs can be employed in a variety of ways, for example, for the production of anti-SMDP and/or SCP antibodies thereto, in therapeutic compositions, and methods employing such proteins and/or antibodies for drug screening, functional genomics and other applications. Also provided are transgenic non-human mammals that express the invention protein.

Abstract: The invention provides isolated nucleic acid molecules encoding PAAD-domain containing polypeptides and functional fragments thereof, including fragments containing PAAD domains, NACHT domains and ARED domains, encoded polypeptides, and antibodies. Also provided are methods of identifying polypeptides and agents that associate with a PAAD-domain containing polypeptide or fragment thereof, or that alter an association of a PAAD domain-containing polypeptides. Further provided are methods of identifying agents that modulate PAAD domain-mediated inhibition of NF?B activity, or modulate an activity of a NACHT domain of a PAAD domain-containing polypeptide. Also provided are methods of modulating NF?B transcriptional activity in a cell, and methods of altering expression of a PAAD domain-containing polypeptide in a cell.

Abstract: The invention provides a method of treating a disease or pathological condition resulting in apoptotic cell death. The method includes increasing the activity of Bcl-2 in cells affected by the disease or pathological condition. Diseases or pathological conditions can include, for example, neurodegenerative diseases, cancer and viral infections. Also provided is a method of prolonging the in vivo survival of transplanted cells for the treatment of a disease or pathological condition. The method includes increasing the activity of Bcl-2 in a population of cells and transplanting the population of cells having increased Bcl-2 activity into a subject. Diseases or pathological conditions can include, for example, neurodegenerative diseases, cancer and viral infections. A method to enhance the sensitivity of malignant cells to therapy is provided that includes decreasing the activity of Bcl-2 in the malignant cells.

Abstract: Methods for diagnosis and prognosis of prostate cancer are provided. The methods involve the detection of the level of expression of Claudin-1 in tissue or cell samples. Claudin-1 is underexpressed or non-expressed in the majority of prostate cancers.

Abstract: The invention provides a method of identifying an effective compound that modulates the binding of Humanin to Bax or Bid. The invention also provides a method of identifying an effective compound that modulates an activity of Bax or Bid. In addition, the invention provides a method of identifying a Humanin-like compound that binds to Bax or Bid or modulates an activity of Bax or Bid, or inhibits the apoptotic activity of Bax or Bid. The invention further provides an isolated polypeptide containing a mitochondrial-derived form of Humanin (SEQ ID NO:3) or a functional fragment thereof where the fragment contains the methionine at position 16 of SEQ ID NO:3.

Abstract: Cyclosporin A has been discovered to sensitize cancers resistant to TNF-family death receptors such as TRAIL and Fas to ligand-mediated apoptosis. Therefore, compositions that include cyclosporin A are useful in treating such cancers.

Abstract: In accordance with the present invention, there are provided novel Survivin-binding-proteins (SBPs). Nucleic acid sequences encoding such proteins and assays employing same are also disclosed. The invention SBPs can be employed in a variety of ways, for example, for the production of anti-SBP antibodies thereto, in therapeutic compositions and in bioassays methods employing such proteins and/or antibodies. Also provided are transgenic non-human mammals that express the invention protein.

Abstract: In accordance with the present invention, there are provided methods for determining a prognosis of disease free or overall survival in a patient suffering from cancer. Also provided are methods for predicting the risk of tumor recurrence or spread in an individual having a cancer tumor. Methods for screening a cancer patient to determine the risk of tumor metastasis; methods for determining the proper course of treatment for a patient suffering from cancer; and kits for use in practicing the invention methods.

Abstract: Methods of identifying death receptor sensitizing compounds and methods of using death receptor sensitizing compounds are provided.

Abstract: Novel methods of regulating cellular apoptosis by affecting the interaction of hepatitis B X-interacting protein (HBXIP) with Survivin are described. More specifically, these novel methods of enhancing apoptosis of neoplastic cells comprises inhibiting interaction of hepatitis B X-interacting protein (HBXIP) with Survivin.