Abstract: The present application relates to optimized IgG immunoglobulin variants, engineering methods for their generation, and their application, particularly for therapeutic purposes.

Abstract: The invention relates to novel cell-binding agent-cytotoxic agent conjugates, wherein the cell-binding agent (CBA) is covalently linked to the cytotoxic agent through an engineered Cys, such as an engineered Cys in the heavy chain CH3 domain, at a position corresponds to the EU/OU numbering position 442 (or C442) on an antibody CBA. The invention also provides methods of preparing the conjugates of the present invention. The invention further provides composition and methods useful for inhibiting abnormal cell growth or treating a proliferative disorder in a mammal using the conjugates of the invention.

Abstract: The present invention generally relates to methods of preventing methionine oxidation in immunoconjugates. The present invention also relates to pharmaceutical compositions of immunoconjugates in which the amount of methionine oxidation is minimized.

Abstract: The present disclosure relates generally to methods and compositions useful in cell and tissue biology and therapeutics. In particular, an in vitro method for differentiating pluripotent stem cells into KDR+NCAM+APLNR+ mesoderm cells and/or SSEA5?KDR+NCAM+APLNR+ mesoderm cells is provided. The disclosed mesoderm cells may be used to generate blood vessels in vivo and/or further differentiated in vitro into endothelial colony forming cell-like cells (ECFC-like cells). Purified human cell populations of KDR+NCAM+APLNR+ mesoderm cells and ECFC-like cells are provided. Test agent screening and therapeutic methods for using the cell populations of the present disclosure are provided.

Abstract: The present disclosure provides compositions and methods for the treatment or prophylaxis of a perfusion disorder, such as ischemia and/or reperfusion injury, in a subject's organ, tissue or extremity by preserving or improving endothelial function, reducing vascular injury, and/or promoting vascular repair. The disclosed compositions comprise endothelial colony-forming cells or a serum-free composition comprising chemically defined media conditioned by endothelial colony-forming cells.

Abstract: The present disclosure relates generally to methods and compositions useful in cell and tissue biology and therapeutics. In particular, an in vitro method for differentiating pluripotent stem cells into KDR+NCAM+APLNR+ mesoderm cells and/or SSEA5?KDR+NCAM+APLNR+ mesoderm cells is provided. The disclosed mesoderm cells may be used to generate blood vessels in vivo and/or further differentiated in vitro into endothelial colony forming cell-like cells (ECFC-like cells). Purified human cell populations of KDR+NCAM+APLNR+ mesoderm cells and ECFC-like cells are provided. Test agent screening and therapeutic methods for using the cell populations of the present disclosure are provided.

Abstract: Parallel reactor systems for synthesizing materials are disclosed. The reactor systems may include at least two reaction vessels and may be suitable for synthesizing materials produced from corrosive reagents, for example, Ziegler-Natta catalysts. Antechambers may be provided above the reaction vessels to help purge vapors produced by the corrosive reagents. Methods for preparing materials by use of such parallel reactor systems are also disclosed.

Abstract: Compositions and methods are provided for reprogramming dermal fibroblasts to exhibit vasculogenic properties including the ability to stimulate vasculogenesis in vivo. In accordance with one embodiment such compositions are used in conjunction with standard treatment for use on chronic wounds including in diabetic patients.

Abstract: The present invention generally relates to methods of preventing methionine oxidation in immunoconjugates. The present invention also relates to pharmaceutical compositions of immunoconjugates in which the amount of methionine oxidation is minimized.

Abstract: The present application relates to optimized IgG immunoglobulin variants, engineering methods for their generation, and their application, particularly for therapeutic purposes.

Abstract: The present invention is directed to immunoconjugates comprising an antibody or fragment thereof capable of specifically binding to “Disintegrin and Metalloproteinase Domain-containing Protein 9” (“ADAM9”) conjugated to at least one pharmacological agent. The invention particularly concerns such immunoconjugates that are cross-reactive with human ADAM9 and the ADAM9 of a non-human primate (e.g., a cynomolgus monkey). The invention additionally pertains to all such immunoconjugates that comprise a Light Chain Variable (VL) Domain and/or a Heavy Chain Variable (VH) Domain that has been humanized and/or deimmunized so as to exhibit reduced immunogenicity upon administration of such immunoconjugate to a recipient subject. The invention is also directed to pharmaceutical compositions that contain any of such immunoconjugates, and to methods involving the use of any of such immunoconjugates in the treatment of cancer and other diseases and conditions.

Abstract: The present application relates to optimized IgG immunoglobulin variants, engineering methods for their generation, and their application, particularly for therapeutic purposes.

Abstract: The present invention is directed to immunoconjugates comprising an antibody or fragment thereof capable of specifically binding to “Disintegrin and Metalloproteinase Domain- containing Protein 9” (“ADAM9”) conjugated to at least one maytansinoid compound. The invention particularly concerns such immunoconjugates that are cross-reactive with human ADAM9 and the ADAM9 of a non-human primate (e.g., a cynomolgus monkey). The invention additionally pertains to all such immunoconjugates that comprise a Light Chain Variable (VL) Domain and/or a Heavy Chain Variable (VH) Domain that has been humanized and/or deimmunized so as to exhibit reduced immunogenicity upon administration of such immunoconjugate to a recipient subject. The invention is also directed to pharmaceutical compositions that contain any of such immunoconjugates, and to methods involving the use of any of such immunoconjugates in the treatment of cancer and other diseases and conditions.

Abstract: Methods and reagents for the installation of click chemistry handles on target proteins are provided, as well as modified proteins comprising click chemistry handles. Further, chimeric proteins, for example, bi-specific antibodies, that comprise two proteins conjugated via click chemistry, as well as methods for their generation and use are disclosed herein.

Abstract: The invention relates to novel cell-binding agent-cytotoxic agent conjugates, wherein the cell-binding agent (CBA) is covalently linked to the cytotoxic agent through an engineered Cys, such as an engineered Cys in the heavy chain CH3 domain, at a position corresponds to the EU/OU numbering position 442 (or C442) on an antibody CBA. The invention also provides methods of preparing the conjugates of the present invention. The invention further provides composition and methods useful for inhibiting abnormal cell growth or treating a proliferative disorder in a mammal using the conjugates of the invention.

Abstract: The invention relates to novel cell-binding agent-cytotoxic agent conjugates, wherein the cell-binding agent (CBA) is covalently linked to the cytotoxic agent through an engineered Cys, such as an engineered Cys in the heavy chain CH3 domain, at a position corresponds to the EU/OU numbering position 442 (or C442) on an antibody CBA. The invention also provides methods of preparing the conjugates of the present invention. The invention further provides composition and methods useful for inhibiting abnormal cell growth or treating a proliferative disorder in a mammal using the conjugates of the invention.

Abstract: Materials and methods are disclosed for controlling vasculogenesis using building blocks of a collagen matrix and endothelial colony forming cells (ECFC). The building blocks may be isolated by fractionating an acid soluble Type I collagen. The building blocks comprising monomers and/or oligomers may be recombined in desired ratios to alter the matrix microenvironment and to influence ECFC behavior.

Abstract: A system, method, and apparatus for compressing and transmitting motion data. The method comprises receiving high fidelity motion data from a motion sensing device, the high fidelity motion data including a plurality of motion data samples; transmitting the high fidelity motion data to a server; compressing the high fidelity motion data, wherein compressing the high fidelity motion data comprises identifying a subset of the motion data samples and generating a value representing the summary of activity based on the subset of the motion data samples; and transmitting the compressed high fidelity motion data to a server.

Abstract: The present disclosure describes the engineering of a mesodermal precursor cell population obtained through the differentiation of induced pluripotent stem cells (iPSCs) for the cell therapy treatment of perfusion disorders. The modifications improve the survival and clonal proliferation of the mesodermal precursor cell population ex vivo and facilitate their migration to sites of ischemic injury in vivo.

Abstract: A hierarchy of endothelial colony forming cells (EPCs) was identified from mammalian cord blood, umbilical vein and aorta. A newly isolated cell named high proliferative potential—endothelial colony forming cell (HPP-ECFC) was isolated and characterized. Single cell assays were developed that test the proliferative and clonogenic potential of endothelial cells derived from cord blood, or from HUVECs and HAECs. EPCs were found to reside in vessel walls. Use of a feeder layer of cells derived from high proliferative potential-endothelial colony forming cells (HPP-ECPCS) from human umbilical cord blood, stimulates growth and survival of repopulating hematopoietic stem and progenitor cells. Stimulation of growth and survival was determined by increased numbers of progenitor cells in in vitro cultures and increased levels of human cell engraftment in the NOD/SCID immunodeficient mouse transplant system.