Abstract: Disclosed are compositions and methods for the inhibition of biofilm formation or reduction of existing or developing biofilms in a patient. These methods also inhibit the aggregation of bacteria that form biofilms in the airways. The methods include administering to a subject that has or is at risk of developing biofilms a compound or formulation that inhibits the formation or polymerization of actin microfilaments or depolymerizes actin microfilaments at or proximal to the site of biofilm formation. Such a compound can be administered in combination with a compound or formulation that inhibits the accumulation or activity of cells that are likely to undergo necrosis at or proximal to the site of biofilm formation (i.e., neutrophils). The methods and compositions can further include the use of anti-DNA and/or anti-mucin compounds, as well as other therapeutic compounds and compositions.
Type:
Grant
Filed:
October 12, 2012
Date of Patent:
December 2, 2014
Assignee:
National Jewish Health
Inventors:
Jerry A. Nick, Travis S. Walker, G. Scott Worthen
Abstract: Disclosed are methods for conditionally immortalizing stem cells, including adult and embryonic stem cells, the cells produced by such methods, therapeutic and laboratory or research methods of using such cells, and methods to identify compounds related to cell differentiation and development or to treat diseases, using such cells. A mouse model of acute myeloid leukemia (AML) and cells and methods related to such mouse model are also described.
Type:
Grant
Filed:
October 18, 2006
Date of Patent:
November 11, 2014
Assignees:
The Regents of the University of Colorado, National Jewish Health
Inventors:
John C. Cambier, Yosef Refaeli, Sara Ann Johnson, Brian Curtis Turner
Abstract: Disclosed are methods to treat allergic conditions, including pulmonary and non-pulmonary conditions, in a subject by administering a composition that inhibits Pim kinase. Also disclosed are methods to treat allergic conditions in a subject by administering a composition that induces expression of Runx3.
Abstract: The invention provides diagnostic and therapeutic targets for pulmonary disease, in particular, fibrotic lung disease. The inventors have found that a genetic variant MUC5B gene is associated with increased expression of the gene, increased risk of developing a pulmonary disease, and an improved prognosis and survival among those developing the pulmonary disease.
Abstract: The invention generally relates to methods to inhibit inflammation or pathogen infection by administering at least one anionic lipid or compositions comprising at least one anionic lipid to an individual. The invention also relates to methods to prevent or inhibit respiratory syncytial virus (RSV) infection by administering at least one anionic lipid or compositions comprising at least one anionic lipid to an individual. The invention further relates to compositions comprising randomly mixed surfactant lipids and methods to produce the compositions.
Abstract: The present invention relates to methods and compositions for treating and/or preventing allergic diseases or conditions by inhibiting one or more components of the steroidogenic pathway.
Abstract: The invention relates to methods of inhibiting biofilm formation or reducing biofilms in a subject or on a device or surface by administering a charged compound such as a polyamino acid to a subject, device or surface. The invention also relates to compositions for inhibiting biofilm formation or reducing biofilms.
Abstract: This invention generally relates to methods for the production of antibody producing cells and antibodies in protooncogene expressing animals. The invention also relates to methods for the efficient production of antibodies specific for antigens that are normally subject to immunological constraints such as self tolerance. The invention further relates to the production of antibody producing cells and antibodies without the need for the conventional fusing of antibody producing B cells with a myeloma fusion partner.
Abstract: Disclosed are novel inhibitors of the alternative complement pathway and particularly, novel anti-factor B antibodies. Also disclosed is the use of such inhibitors to reduce or prevent airway hyperresponsiveness and/or airway inflammation by selectively inhibiting the alternative complement pathway, thereby treating diseases in which such conditions play a role. Also disclosed is the use of such inhibitors to reduce or prevent other diseases and conditions, including ischemia-reperfusion injury, by inhibition of the alternative complement pathway.
Type:
Application
Filed:
February 18, 2014
Publication date:
June 5, 2014
Applicants:
MUSC Foundation for Research Development, National Jewish Health, The Regents of the University of Colorado, a body corporate
Inventors:
V. Michael HOLERS, Joshua M. Thurman, Christian Taube, Erwin W. Gelfand, Gary Steven Gilkeson
Abstract: Disclosed are compositions and methods for decreasing the viscosity and/or cohesiveness of and/or increasing the liquefaction of excessively or abnormally viscous or cohesive mucus or sputum. The composition contains a protein or peptide containing a thioredoxin active-site in reduced state and optionally further contains a reducing system.
Abstract: Disclosed are novel inhibitors of the alternative complement pathway and particularly, novel anti-factor B antibodies. Also disclosed is the use of such inhibitors to reduce or prevent airway hyperresponsiveness and/or airway inflammation by selectively inhibiting the alternative complement pathway, thereby treating diseases in which such conditions play a role. Also disclosed is the use of such inhibitors to reduce or prevent other diseases and conditions, including ischemia-reperfusion injury, by inhibition of the alternative complement pathway.
Type:
Grant
Filed:
August 22, 2007
Date of Patent:
April 22, 2014
Assignees:
MUSC Foundation for Research Development, National Jewish Health, The Regents of the University of Colorado, a body corporate
Inventors:
V. Michael Holers, Joshua M. Thurman, Christian Taube, Erwin W. Gelfand, Gary Gilkeson
Abstract: The present invention provides a method of determining the susceptibility of a subject to treatment with a leukotriene modifier by determining the subject's cysteinyl leukotriene (CysLT) level and the subject's level of eosinophilic airway inflammation and identifying a subject with a high ratio of CysLT levels to eosinophilic airway inflammation as susceptible to treatment with the leukotriene modifier. Also discussed is a method of treatment of subjects who are susceptible to treatment that includes administering a leukotriene modifier to such a subject.
Abstract: The invention provides diagnostic and therapeutic targets for pulmonary disease, in particular, fibrotic lung disease. The inventors have found that a genetic variant MUC5B gene is associated with increased expression of the gene, increased risk of developing a pulmonary disease, and an improved prognosis and survival among those developing the pulmonary disease.
Abstract: Disclosed are novel inhibitors of the alternative complement pathway and particularly, novel anti-factor B antibodies. Also disclosed is the use of such inhibitors to reduce or prevent airway hyperresponsiveness and/or airway inflammation by selectively inhibiting the alternative complement pathway, thereby treating diseases in which such conditions play a role. Also disclosed is the use of such inhibitors to reduce or prevent other diseases and conditions, including ischemia-reperfusion injury, by inhibition of the alternative complement pathway.
Type:
Grant
Filed:
August 3, 2007
Date of Patent:
February 18, 2014
Assignees:
MUSC Foundation for Research Development, National Jewish Health, The Regents of the University of Colorado, a body corporate
Inventors:
Vernon Michael Holers, Joshua M. Thurman, Christian Taube, Erwin W. Gelfand, Gary Steven Gilkeson
Abstract: The invention provides methods for predicting the risk for a subject of exacerbation of an inflammatory disease of the airways upon exposure to an environmental agent as well as methods for reducing a subject's risk of exacerbation of an inflammatory disease of the airways upon exposure to an environmental agent.
Abstract: Disclosed is a panel of biomarkers associated with angiogenesis, and the use of such biomarkers (genes, proteins, homologues and analogs thereof) to regulate angiogenesis. Methods for identifying compounds useful for regulating angiogenesis and conditions related thereto are disclosed.
Abstract: The present invention relates, in general, to a method of modulating physiological and pathological processes and, in particular, to a method of modulating cellular levels of oxidants and thereby processes in which such oxidants are a participant. The invention also relates to compounds and compositions suitable for use in such methods.
Type:
Application
Filed:
September 5, 2013
Publication date:
January 9, 2014
Applicants:
Aeouls Sciences, Inc., Duke University, National Jewish Health
Inventors:
James D. Crapo, Brian J. Day, Michael P. Trova, Polvina Jolicia Gauuan, Douglas B. Kitchen, Irwin Fridovich, Ines Batinic-Haberle
Abstract: The present invention is related to the novel discovery of a number of genes that were identified as systemic markers of pulmonary inflammation. This discovery allows for development of a novel tool for reliable, rapid and efficient assessment of therapeutic responses and enables design of novel therapies targeted against diseases associated with pulmonary inflammation. In one embodiment, the present invention allows quantification of therapeutic response in patients who have a disease associated with pulmonary inflammation. In preferred embodiments, the genes are CD64, ADAM9, CD36, IL32, HPSE, PLXND1, HCA112, CSPG2, TLR2, and CD163.
Abstract: This invention generally relates to methods for the production of antibody producing cells and antibodies in protooncogene expressing animals. The invention also relates to methods for the efficient production of antibodies specific for antigens that are normally subject to immunological constraints such as self tolerance. The invention further relates to the production of antibody producing cells and antibodies without the need for the conventional fusing of antibody producing B cells with a myeloma fusion partner.