Abstract: A retail store design and method that allows a consumer, particularly a younger child, to actively participate in the customization, assembly, and personalization of a modular toy vehicle while in the retail store environment. The store design can provide an overall experience to the consumer that is interactive and personal. With this store design and method the consumer does not have to settle on limited off-the-shelf variations in toy vehicle design. The consumer can customize their own toy vehicle based on their own individual taste and also participated in the assembly process and personalize the vehicle including assigning a vehicle identification number (VIN) and creating a personalized license plate.

Abstract: A retail store design and method that allows a consumer, particularly a younger child, to actively participate in the customization, assembly, and personalization of a modular toy vehicle while in the retail store environment. The store design can provide an overall experience to the consumer that is interactive and personal. With this store design and method the consumer does not have to settle on limited off-the-shelf variations in toy vehicle design.

Abstract: Novel structural forms of T cell costimulatory molecules are described. These structural forms comprise a novel structural domain or have a structural domain deleted or added. The structural forms correspond to naturally-occurring alternatively spliced forms of T cell costimulatory molecules or variants thereof which can be produced by standard recombinant DNA techniques. In one embodiment, the T cell costimulatory molecule of the invention contains a novel cytoplasmic domain. In another embodiment, the T cell costimulatory molecule of the invention contains a novel signal peptide domain or has an immunoglobulin variable region-like domain deleted. The novel structural forms of T cell costimulatory molecules can be used to identify agents which stimulate the expression of alternative forms of costimulatory molecules and to identify components of the signal transduction pathway which results in costimulation of T cells.

Abstract: We teach a strategy to obtain large quantities of desired APCs, activated B cells, which are superior in their capacity to present tumor protein antigen in a multiadministration protocol. Human B cells can be obtained from peripheral blood in large numbers. These cells can be activated in vitro by coculture with CD40L (CD40-B cells) and an immunosuppressive agent such as cyclosporin A. They can expanded up to 1×103 to 1×104 fold in 2 weeks or 1×105 to 1×106 fold in 2 months. We demonstrate these cells are most efficient APCs comparable to DCs in stimulating allogeneic CD4+ CD45RA+, CD4+ CD45RO+, and CD8+ T cells. In contrast to DCs, CD40-B cells are fully functional even in the presence of immunosuppressive cytokines such as IL-10 and TGF?.

Abstract: Methods for selectively modulating a Th2-type response within a population of activated CD4+ T cells are provided. The methods of the invention involve contacting the CD4+ T cells with an agent which modulates a B7-2-induced signal in the CD4+ T cells, such that the Th2-type response is modulated. Methods for either stimulating or inhibiting Th2 type responses are provided by the invention.

Abstract: Tumor cells modified to express a T cell costimulatory molecule are disclosed. In one embodiment, the costimulatory molecule is a CD28/CTLA4 ligand, preferably a B lymphocyte antigen B7. The tumor cells of the invention can be modified by transfection with nucleic acid encoding a T cell costimulatory molecule, by using an agent which induces or increases expression of a T cell costimulatory molecule on the tumor cell surface or by coupling a T cell costimulatory molecule to the tumor cell surface. Tumor cells further modified to express MHC class I and/or class II molecules or in which expression of an MHC associated protein, the invariant chain, is inhibited are also disclosed. The modified tumor cells of the invention can be used in methods for treating-a patient with a tumor, preventing or inhibiting metastatic spread of a tumor or preventing or inhibiting recurrence of a tumor.

Abstract: Tumor cells modified to express one or more T cell costimulatory molecules are disclosed. Preferred costimulatory molecules are B7-2 and B7-3. The tumor cells of the invention can be modified by transfection with nucleic acid encoding B7-2 and/or B7-3, by using an agent which induces or increases expression of B7-2 and/or B7-3 on the tumor cell or by coupling B7-2 and/or B7-3 to the tumor cell. Tumor cells modified to express B7-2 and/or B7-3 can be further modified to express B7. Tumor cells further modified to express MHC class I and/or class II molecules or in which expression of an MHC associated protein, the invariant chain, is inhibited are also disclosed. The modified tumor cells of the invention can be used in methods for treating a patient with a tumor, preventing or inhibiting metastatic spread of a tumor or preventing or inhibiting recurrence of a tumor.

Abstract: Microparticles that are designed to release their payload when exposed to acidic conditions are provided as a vehicle for drug delivery. Any therapeutic, diagnostic, or prophylatic agent may be encapsulated in a lipid-protein-sugar or polymeric matrix including a pH triggering agent to form pH triggerable microparticles. Preferably the diameter of the pH triggered microparticles ranges from 50 nm to 10 micrometers. The matrix of the particles may be prepared using any known lipid (e.g., DPPC), protein (e.g., albumin), or sugar (e.g., lactose). The matrix of the particles may also be prepared using any synthetic polymers such as polyesters. Methods of preparing and administering the particles are provided. Methods of immunization, transfection, and gene therapy are also provided by administering pH triggerable microparticles.

Abstract: The invention relates to antigen-presenting cells having specificity against a selected antigen and methods for making the cells. The invention also relates to a method of selecting efficient antigen-presenting cells using reporter fusion constructs. The highly efficient antigen-presenting cells of the invention will provide a therapeutic strategy of modulating immune responses for a variety of diseases.

Abstract: A monoclonal antibody recognizing an antigenic determinant on activated human B-cells, the antigenic determinant being characteized in that it is a protein distinct from B-LAST-1 and BB-1, the antibody being substantially unreactive with unactivated human B-cells.