Abstract: A population of small reaggregated islets or clusters engineered from individual islet cells and having improved characteristics as compared to native isolated islets.

Abstract: A scaffold having islet cells or small islet cell clusters attached thereto in a multilayer, and a micro-mold having divots for culturing islets, wherein islet formation is influenced by the shape and dimensions of the divots are disclosed.

Abstract: Bifunctional conjugate compositions are provided comprising a Signal-1 moiety bound to a first polymer carrier, wherein the combined size of the Signal-1 moiety and the first polymer carrier is about 1 nanometer to about 500 nanometers; and a Signal-2 moiety bound to a second polymer carrier, wherein the combined size of the Signal-2 moiety and the second polymer carrier is about 1 nanometer to about 500 nanometers. In some embodiments, the Signal-1 moiety and the Signal-2 moiety are bound to the same polymer carrier. Associated methods are also provided.

Abstract: A scaffold having islet cells or small islet cell clusters attached thereto in a multilayer, and a micro-mold having divots for culturing islets, wherein islet formation is influenced by the shape and dimensions of the divots are disclosed.

Abstract: An implantable biomaterial scaffold having islet cells or small islet cell clusters attached thereto in a multilayer. The cells are derived by enzymatic dispersion and/or calcium depletion of large adult intact islets.

Abstract: A molecular conjugate is provided having the formula: wherein R1 is a de-hydroxyl or de-amino moiety respectively of a hydroxyl-bearing or amino-bearing biologically active molecule or an analog or derivative thereof, and Z is —O— or —NH—, respectively, Y is a straight or branched alkyl having 1 to 20 carbons that may be optionally substituted with one or more phenyl, a cycloalkyl optionally substituted with one or more alkyl or phenyl, or an aromatic group optionally substituted with one or more alkyl groups, electron-withdrawing groups, or electron-donating groups; and R2 is —CH?CH(W), —CH(OH)CH(OH)W, or —C(O)H, where W can be H, a straight or branched alkyl having 1 to 20 carbons that may be optionally substituted with one or more phenyl, a cycloalkyl optionally substituted with one or more alkyl or phenyl, or an aromatic group optionally substituted with one or more alkyl groups, electron-withdrawing groups, or electron-donating groups.

Abstract: A novel peptide sequence having the general formula AB wherein each of A and B represent a chain of amino acid residues and wherein said A chain is capable of binding with a major histocompatibility complex on an antigen presenting cell, and wherein said B chain is capable of binding with a Signal-2 receptor on an antigen presenting cell. Preferred forms of the peptide sequence further include an X chain positioned intermediate the A chain and the B chain. Moreover, preferred forms include an A chain which has at least about 10% sequence homology with a Signal-1 moiety, or is a peptidomimetic of a Signal-1 moiety, said B chain has at least 10% sequence homology with a Signal-2 receptor moiety, or is a peptidomimetic of a Signal-2 receptor moiety, and wherein the X chain has at least one amino acid residue, or is a peptidomimetic of that amino acid residue.

Abstract: Methods and compositions useful in inhibiting integrin-associated diseases are provided. The compositions contain a polypeptide having one or more D-amino acids that inhibit integrin binding to its associated binding polypeptide. The compositions include retro-inverso polypeptides.

Abstract: Provided are cyclic prodrugs of biologically active peptides and peptide nucleic acids exhibiting improved cell membrane permeability and enzymatic stability, containing 3-(2'-hydroxy-4',6'-dimethyl phenyl)-3,3-dimethyl propionic acid and its deriveatives and acyloxyalkoxy linkers. Also provided are pharmaceutical compositions containing effective amounts of these cyclic prodrugs in combination with pharmaceutically acceptable carriers, excipients, or diluents.