ABT Holding Company Patent applications |
Patent application number | Title | Published |
20150359823 | MULTIPOTENT ADULT STEM CELLS AND METHODS FOR ISOLATION - The invention provides isolated stem cells of non-embryonic origin that can be maintained in culture in the undifferentiated state or differentiated to form cells of multiple tissue types. Also provided are methods of isolation and culture, as well as therapeutic uses for the isolated cells. | 12-17-2015 |
20150267167 | MULTIPOTENT ADULT STEM CELLS AND METHODS FOR ISOLATION - The invention provides isolated stem cells of non-embryonic origin that can be maintained in culture in the undifferentiated state or differentiated to form cells of multiple tissue types. Also provided are methods of isolation and culture, as well as therapeutic uses for the isolated cells. | 09-24-2015 |
20150093364 | USE OF STEM CELLS TO PREVENT NEURONAL DIEBACK - The invention is generally directed to treatment of neuronal injury. In particular, the invention is directed to reducing axonal retraction (“dieback”) that occurs as a result of the interaction of activated macrophages with dystrophic axons that are produced during nervous system acute or chronic injury. The invention is also directed to promoting axonal growth/regeneration. The invention is specifically directed to using stem cells or their secreted cellular factors, such as would be produced in conditioned cell culture medium, to ameliorate or prevent axonal dieback and/or promote growth/regeneration of axons. | 04-02-2015 |
20140295442 | MODULATION OF MICROGLIA ACTIVATION - The invention provides methods for treating pathological conditions associated with an undesirable inflammatory component. The invention is generally directed to reducing inflammation by administering cells that modulate microglia activation. The invention is also directed to drug discovery methods to screen for agents that modulate the ability of the cells to modulate microglia activation. The invention is also directed to cell banks that can be used to provide cells for administration to a subject, the banks comprising cells having desired levels of potency to modulate microglia activation. | 10-02-2014 |
20140275035 | THIENYLINDOLE AZEPINES AS SEROTONIN 5-HT2C RECEPTOR LIGANDS AND USES THEREOF - The present invention generally relates to a series of compounds, to pharmaceutical compositions containing the compounds, and to use of the compounds and compositions as therapeutic agents. More specifically, compounds of the present invention are thienylindole azepines. These compounds are serotonin receptor (5-HT | 09-18-2014 |
20140242629 | Modulation of Angiogenesis - The invention provides methods for treating pathological conditions that can be improved by providing angiogenesis. The invention is generally directed to provide angiogenesis by administering cells that express and/or secrete one or more pro-angiogenic factors. The invention is also directed to drug discovery methods to screen for agents that modulate the ability of the cells to express and/or secrete one or more pro-angiogenic factors. The invention is also directed to cell banks that can be used to provide cells for administration to a subject, the banks comprising cells having desired levels of expression and/or secretion of one or more pro-angiogenic factors. | 08-28-2014 |
20140206739 | TRICYCLIC INDENO-PYRROLE DERIVATIVES AS SEROTONIN RECEPTOR MODULATORS - The present invention generally relates to a series of compounds, to pharmaceutical compositions containing the compounds, and to use of the compounds and compositions as therapeutic agents. More specifically, compounds of the present invention are tricyclic indeno-pyrrole compounds. These compounds are serotonin receptor (5-HT) ligands and are useful for treating diseases, disorders, and conditions wherein modulation of the activity of serotonin receptors (5-HT) is desired (e.g. anxiety, depression and obesity). | 07-24-2014 |
20140206672 | THIOPHENYL AND PYRROLYL AZEPINES AS SEROTONIN 5-HT2C RECEPTOR LIGANDS AND USES THEREOF - The present invention generally relates to a series of compounds, to pharmaceutical compositions containing the compounds, and to use of the compounds and compositions as therapeutic agents. More specifically, compounds of the present invention are thiophenyl and pyrrolyl azepine compounds. These compounds are serotonin receptor (5-HT | 07-24-2014 |
20140194411 | BENZAZEPINES AS SEROTONIN 5-HT2C RECEPTOR LIGANDS AND USES THEREOF - The present invention generally relates to a series of compounds, to pharmaceutical compositions containing the compounds, and to use of the compounds and compositions as therapeutic agents. More specifically, compounds of the present invention are benzazepine compounds. These compounds are serotonin receptor (5-HT | 07-10-2014 |
20140186307 | Use of Stem Cells to Prevent Neuronal Dieback - The invention is generally directed to treatment of neuronal injury. In particular, the invention is directed to reducing axonal retraction (“dieback”) that occurs as a result of the interaction of activated macrophages with dystrophic axons that are produced during nervous system acute or chronic injury. The invention is also directed to promoting axonal growth/regeneration. The invention is specifically directed to using stem cells or their secreted cellular factors, such as would be produced in conditioned cell culture medium, to ameliorate or prevent axonal dieback and/or promote growth/regeneration of axons. | 07-03-2014 |
20140134137 | Use of Stem Cells to Reduce Leukocyte Extravasation - The invention is generally directed to reducing inflammation by means of cells that secrete factors that reduce leukocyte extravasation. Specifically, the invention is directed to methods using cells that secrete factors that downregulate the expression of cellular adhesion molecules in leukocytes. Downregulating expression of cellular adhesion molecules reduces leukocyte adhesion to endothelial cells such that extravasation is reduced. The end result is a reduction of inflammation. The cells are non-embryonic non-germ cells that have pluripotent characteristics. These may include expression of pluripotential markers and broad differentiation potential. | 05-15-2014 |
20140037596 | Use of Stem Cells to Reduce Leukocyte Extravasation - The invention is generally directed to reducing inflammation by means of cells that secrete factors that reduce leukocyte extravasation. Specifically, the invention is directed to methods using cells that secrete factors that downregulate the expression of cellular adhesion molecules in vascular endothelial cells. Downregulating expression of cellular adhesion molecules reduces leukocyte adhesion to the endothelial cells such that extravasation is reduced. The end result is a reduction of inflammation. The cells are non-embryonic non-germ cells that have pluripotent characteristics. These may include expression of pluripotential markers and broad differentiation potential. | 02-06-2014 |
20120009674 | Use of a GSK-3 Inhibitor to Maintain Potency of Cultured Cells - The present invention is directed to the culture of non-embryonic cells, that can differentiate into cell types of more than one embryonic lineage, in culture under conditions that maintain differentiation capacity during expansion; more particularly, culturing non-embryonic cells in the presence of at least one GKS-3 inhibitor, such as BIO. | 01-12-2012 |
20110318313 | Modulation of Splenocytes in Cell Therapy for Traumatic Brain Injury - The invention provides methods for treating traumatic brain injury. The invention is generally directed to treating traumatic brain injury by administering cells that have one or more of the following effects in an injured subject: interact with splenocytes, preserve splenic mass, increase proliferation of CD4 | 12-29-2011 |
20110305638 | Modulation of Macrophage Activation - The invention provides methods for treating pathological conditions associated with an undesirable inflammatory component. The invention is generally directed to reducing inflammation by administering cells that modulate macrophage activation. The invention is also directed to drug discovery methods to screen for agents that modulate the ability of the cells to modulate macrophage activation. The invention is also directed to cell banks that can be used to provide cells for administration to a subject, the banks comprising cells having desired potency to modulate macrophage activation. | 12-15-2011 |
20110293642 | Modulation of Splenocytes in Cell Therapy - The invention provides methods for treating pathological conditions associated with an undesirable inflammatory component. The invention is generally directed to reducing inflammation by administering cells that have one or more of the following effects in an injured subject: interact with splenocytes, preserve splenic mass, increase proliferation of CD4 | 12-01-2011 |
20110293578 | Use of Stem Cells to Prevent Neuronal Dieback - The invention is generally directed to treatment of neuronal injury. In particular, the invention is directed to reducing axonal retraction (“dieback”) that occurs as a result of the interaction of activated macrophages with dystrophic axons that are produced during nervous system acute or chronic injury. The invention is also directed to promoting axonal growth/regeneration. The invention is specifically directed to using stem cells or their secreted cellular factors, such as would be produced in conditioned cell culture medium, to ameliorate or prevent axonal dieback and/or promote growth/regeneration of axons. | 12-01-2011 |
20110217779 | Compositions and Methods for Non-Targeted Activation of Endogenous Genes - The present invention is directed generally to activating gene expression or causing over-expression of a gene by non-homologous or illegitimate recombination, of a regulatory sequence that causes expression of the gene. Thus, by the present invention, endogenous genes, including those associated with human disease and development, may be activated and isolated without prior knowledge of the sequence, structure, function, or expression profile of the genes. | 09-08-2011 |
20110212069 | Modulation of Microglia Activation - The invention provides methods for treating pathological conditions associated with an undesirable inflammatory component. The invention is generally directed to reducing inflammation by administering cells that modulate microglia activation. The invention is also directed to drug discovery methods to screen for agents that modulate the ability of the cells to modulate microglia activation. The invention is also directed to cell banks that can be used to provide cells for administration to a subject, the banks comprising cells having desired levels of potency to modulate microglia activation. | 09-01-2011 |
20110206647 | Modulation of Angiogenesis - The invention provides methods for treating pathological conditions that can be improved by providing angiogenesis. The invention is generally directed to provide angiogenesis by administering cells that express and/or secrete one or more pro-angiogenic factors. The invention is also directed to drug discovery methods to screen for agents that modulate the ability of the cells to express and/or secrete one or more pro-angiogenic factors. The invention is also directed to cell banks that can be used to provide cells for administration to a subject, the banks comprising cells having desired levels of expression and/or secretion of one or more pro-angiogenic factors. | 08-25-2011 |
20110177595 | Multipotent Adult Stem Cells, Sources Thereof, Methods of Obtaining and Maintaining Same, Methods of Differentiation Thereof, Methods of Use Thereof and Cells Derived Thereof - Methods and compositions are provided for circularizing target sequences in a sample. In particular, ligation oligonucleotides are employed to selectively hybridize with the target such that the target can be ligated into a closed circular target. Rolling circle amplification can then be performed directly on the target sequence for subsequent detection and analysis. | 07-21-2011 |
20110171659 | Multipotent Adult Stem Cells, Sources Thereof, Methods of Obtaining and Maintaining Same, Methods of Differentiation Thereof, Methods of Use Thereof and Cells Derived Thereof - The present invention relates generally to mammalian multipotent adult stem cells (MASC), and more specifically to methods for obtaining, maintaining and differentiating MASC to cells of multiple tissue types. Uses of MASC in the therapeutic treatment of disease are also provided. | 07-14-2011 |
20110020293 | Use of Stem Cells to Reduce Leukocyte Extravasation - The invention is generally directed to reducing inflammation by means of cells that secrete factors that reduce leukocyte extravasation. Specifically, the invention is directed to methods using cells that secrete factors that downregulate the expression of cellular adhesion molecules in vascular endothelial cells. Downregulating expression of cellular adhesion molecules reduces leukocyte adhesion to the endothelial cells such that extravasation is reduced. The end result is a reduction of inflammation. The cells are non-embryonic non-germ cells that have pluripotent characteristics. These may include expression of pluripotential markers and broad differentiation potential. | 01-27-2011 |
20110020292 | Use of Stem Cells to Reduce Leukocyte Extravasation - The invention is generally directed to reducing inflammation by means of cells that secrete factors that reduce leukocyte extravasation. Specifically, the invention is directed to methods using cells that secrete factors that downregulate the expression of cellular adhesion molecules in leukocytes. Downregulating expression of cellular adhesion molecules reduces leukocyte adhesion to endothelial cells such that extravasation is reduced. The end result is a reduction of inflammation. The cells are non-embryonic non-germ cells that have pluripotent characteristics. These may include expression of pluripotential markers and broad differentiation potential. | 01-27-2011 |
20100311612 | Compositions and Methods for Making Mutations in Cell Lines and Animals - The present invention is directed generally to reduction or inactivation of gene function or gene expression in cells in vitro and in multicellular organisms. The invention encompasses methods for mutating cells using a combination of mutagens, particularly wherein at least one mutagen is an insertional mutagen, to achieve homozygous gene mutation or mutation of multiple genes required cumulatively to achieve a phenotype to create knock-outs, knock-downs, and other modifications in the same cell. The invention is also directed to cells (and libraries thereof) and organisms created by the methods of the invention, including those in which at least one of the genes created by insertional mutagenesis is tagged by means of the insertion sequences thereby allowing identification of the mutated gene(s). The invention is also directed to libraries of mutated cells and their uses. The invention is also directed to methods of identifying mutations with methods of the invention, in cells (and libraries thereof) and organisms, by means of the insertional tag. | 12-09-2010 |
20100285590 | Homologous Recombination in Multipotent Adult Progenitor Cells - The invention relates to methods of altering gene expression by homologous recombination in a multipotent adult progenitor cell (MAPC). In particular, methods of producing a recombinant MAPC, of correcting a genetic defect in a mammal, of providing a functional and/or therapeutic protein to a mammal, and of transforming a MAPC are provided. MAPCs containing an erogenous DNA as well as recombinant MAPCs and their differentiated progeny are also provided. | 11-11-2010 |
20100010196 | COMPOSITIONS AND METHODS FOR NON-TARGETED ACTIVATION OF ENDOGENOUS GENES - The present invention is directed generally to activating gene expression or causing over-expression of a gene by recombination methods in situ. The invention also is directed generally to methods for expressing an endogenous gene in a cell at levels higher than those normally found in the cell. In one embodiment of the invention, expression of an endogenous gene is activated or increased following integration into the cell, by non-homologous or illegitimate recombination, of a regulatory sequence that activates expression of the gene. In another embodiment, the expression of the endogenous gene may be further increased by co-integration of one or more amplifiable markers, and selecting for increased copies of the one or more amplifiable markers located on the integrated vector. In another embodiment, the invention is directed to activation of endogenous genes by nontargeted integration of specialized activation vectors, which are provided by the invention, into the genome of a host cell. The invention also provides methods for the identification, activation, isolation, and/or expression of genes undiscoverable by current methods since no target sequence is necessary for integration. The invention also provides methods for isolation of nucleic acid molecules (particularly cDNA molecules) encoding a variety of proteins, including transmembrane proteins, and for isolation of cells expressing such transmembrane proteins which may be heterologous transmembrane proteins. The invention also is directed to isolated genes, gene products, nucleic acid molecules, to compositions comprising such genes, gene products and nucleic acid molecules, and to vectors and host cells comprising such genes and nucleic acid molecules, that may be used in a variety of therapeutic and diagnostic applications. Thus, by the present invention, endogenous genes, including those associated with human disease and development, may be activated and isolated without prior knowledge of the sequence, structure, function, or expression profile of the genes. | 01-14-2010 |
20090285801 | Calcium-Sensing Receptor 2 (CaR2) and Methods for Using - The current disclosure provide a novel human calcium sensing receptor named CaR2 and the nucleotide sequence that encodes the receptor. The disclosure further provides antibodies specific for CaR2. Also disclosed are methods of identifying modulators of the receptor and methods of using the identified modulators to treat calcium receptor mediated conditions. | 11-19-2009 |
20090233354 | MULTIPOTENT ADULT STEM CELLS AND METHODS FOR ISOLATION - The invention provides isolated stem cells of non-embryonic origin that can be maintained in culture in the undifferentiated state or differentiated to form cells of multiple tissue types. Also provided are methods of isolation and culture, as well as therapeutic uses for the isolated cells. | 09-17-2009 |
20090233353 | MULTIPOTENT ADULT STEM CELLS AND METHODS FOR ISOLATION - The invention provides isolated stem cells of non-embryonic origin that can be maintained in culture in the undifferentiated state or differentiated to form cells of multiple tissue types. Also provided are methods of isolation and culture, as well as therapeutic uses for the isolated cells. | 09-17-2009 |
20090203130 | MULTIPOTENT ADULT STEM CELLS AND METHODS FOR ISOLATION - The invention provides isolated stem cells of non-embryonic origin that can be maintained in culture in the undifferentiated state or differentiated to form cells of multiple tissue types. Also provided are methods of isolation and culture, as well as therapeutic uses for the isolated cells. | 08-13-2009 |
20090203129 | MULTIPOTENT ADULT STEM CELLS AND METHODS FOR ISOLATION - The invention provides isolated stem cells of non-embryonic origin that can be maintained in culture in the undifferentiated state or differentiated to form cells of multiple tissue types. Also provided are methods of isolation and culture, as well as therapeutic uses for the isolated cells. | 08-13-2009 |