Abstract: A topical preventative medicament against burns-related systemic inflammatory response syndrome containing a low-molecular-weight chaperone as the main active ingredient.

Abstract: A topical preventative medicament against burns-related systemic inflammatory response syndrome containing a low-molecular-weight chaperone as the main active ingredient.

Abstract: A topical preventative medicament against burns-related systemic inflammatory response syndrome containing a low-molecular-weight chaperone as the main active ingredient.

Abstract: The disclosure relates, in part, to methods of using pregnenolone sulfate (PREGS) to protect against the neurotoxicity of the ?-amyloid peptide A?1-42. The disclosure also provides methods of using pegnanolone sulfate for treating neurologic disease or dysfunction. The disclosure further provides of using pegnanolone sulfate methods for stimulating or promoting growth of a neuronal cell.

Abstract: Some aspects of this invention are based, at least in part, on the discoveries (i) pluripotent stem cell populations can be obtained from olfactory mucosa, (ii) that various regions of the olfactory mucosa contain pluripotent stem cells, (iii) that cells from these olfactory mucosa derived stem cell populations can be maintained in cultures containing EGF and/or bFGF, (iv) that cells from these olfactory mucosa derived stem cell populations are able to form neurospheres, and/or (v) that cells from these olfactory mucosa derived stem cell populations can differentiate into various lineages, including mesenchymal and neuronal lineages.

Abstract: Described herein are genomic and proteomic biomarkers for the diagnosis of FSGS. Methods for diagnosing FSGS or a predisposition to develop FSGS using the described biomarkers are also provided. Further provided are methods for choosing a course of treatment or administering treatment based on a diagnosis of FSGS using the disclosed biomarkers.

Abstract: In some aspects, the invention provides methods and compositions including HTm4, an HTm4 activator, and/or an HTm4 variant to potentiate a KAP phosphatase activity and or inhibit a CDK2 kinase activity. In some embodiments, a functional C-terminal fragment of HTm4 is provided. In other aspects, the invention provides methods and compositions including an HTm4 inhibitor to inactivate or decrease the activation of a KAP phospatase activity and/or activate or relieve the inhibition on a CDK2 kinase activity. Certain aspects of the invention relate to therapeutic compositions and methods for either inhibiting or promoting cell proliferation.

Abstract: In some aspects, the invention provides methods and compositions including HTm4, an HTm4 activator, and/or an HTm4 variant to potentiate a KAP phosphatase activity and or inhibit a CDK2 kinase activity. In some embodiments, a functional C-terminal fragment of HTm4 is provided. In other aspects, the invention provides methods and compositions including an HTm4 inhibitor to inactivate or decrease the activation of a KAP phospatase activity and/or activate or relieve the inhibition on a CDK2 kinase activity. Certain aspects of the invention relate to therapeutic compositions and methods for either inhibiting or promoting cell proliferation.

Abstract: The invention relates, in part, to granulocyte type selective markers that are preferentially expressed in granulocytes and their use in drug screening assays. Additionally, the granulocyte type selective markers are useful in the diagnosis and treatment of granulocyte disorders and in the assessment of the efficacy of therapies of granulocyte disorders.

Abstract: In some aspects, the invention provides methods and compositions including HTm4, an HTm4 activator, and/or an HTm4 variant to potentiate a KAP phosphatase activity and or inhibit a CDK2 kinase activity. In some embodiments, a functional C-terminal fragment of HTm4 is provided. In other aspects, the invention provides methods and compositions including an HTm4 inhibitor to inactivate or decrease the activation of a KAP phospatase activity and/or activate or relieve the inhibition on a CDK2 kinase activity. Certain aspects of the invention relate to therapeutic compositions and methods for either inhibiting or promoting cell proliferation.

Abstract: This invention relates to the discovery of a novel nucleic acid molecule which encodes a hematopoietic-specific protein, termed LAPTM5. The expression pattern of the gene together with evidence that the protein interacts with ubiquitin indicates that the protein has a functional role during embryogenesis and in adult hematopoietic cells.

Abstract: The invention relates to a recombinant DNA molecule which encodes a HT.sub.m4 protein, a transformed host cell which has been stably transfected with a DNA molecule which encodes a HT.sub.m4 protein and a recombinant HT.sub.m4 protein. The invention also relates to a method for detecting the presence of a hereditary atopy.

Abstract: The sequence, molecular structure and expression of a cDNA clone, denoted D4, of human and murine origin, preferentially expressed in hematopoietic cells is described herein. The human cDNA clone has been expressed in bacteria and the predicted 24 Kd protein purified. The protein has been used in studies of its biochemical function. As predicted on the basis of sequence, D4 can function as a GDP-dissociation inhibitor of at least several small GTP-binding proteins (CDC42 and rac). The D4 protein was used to generate a polyclonal antibody specific for the protein. The human cDNA was used to obtain several full length murine genomic clones. A clone has been analyzed and sequenced to use for the construction of a gene-targeting vector to produce animals deficient in D4 through disruption of the gene by homologous recombination. These animals can then be used as models for fundamental and applied research on the GTP-binding proteins.

Abstract: The invention relates to a recombinant DNA molecule which encodes a HT.sub.m4 protein, a transformed host cell which has been stably transfected with a DNA molecule which encodes a HT.sub.m4 protein and a recombinant HT.sub.m4 protein. The invention also relates to a method for detecting the presence of a hereditary atopy.

Abstract: The sequence, molecular structure and expression of a cDNA clone, denoted D4, of human and murine origin, preferentially expressed in hematopoietic cells is described herein. The human cDNA clone has been expressed in bacteria and the predicted 24 Kd protein purified. The protein has been used in studies of its biochemical function. As predicted on the basis of sequence, D4 can function as a GDP-dissociation inhibitor of at least several small GTP-binding proteins (CDC42 and rac). The D4 protein was used to generate a polyclonal antibody specific for the protein. The human cDNA was used to obtain several full length murine genomic clones. A clone has been analyzed and sequenced to use for the construction of a gene-targeting vector to produce animals deficient in D4 through disruption of the gene by homologous recombination. These animals can then be used as models for fundamental and applied research on the GTP-binding proteins.

Abstract: The invention relates to a recombinant DNA molecule which encodes a HT.sub.m4 protein, a transformed host cell which has been stably transfected with a DNA molecule which encodes a HT.sub.m4 protein and a recombinant HT.sub.m4 protein. The invention also relates to a method for detecting the presence of a hereditary atopy.