Inflammatory/Immune/Wound Repair

Displaying 1 - 6 of 6

Genetic engineering approach for enhancing recombinant protein production by mammalian cells

Vanderbilt researchers have developed a novel approach to enhance recombinant protein production in mammalian cell culture systems by overexpressing specific metabolic proteins in these cells to achieve higher monoclonal antibody titers and increased cell-specific productivity compared to conventional expression systems.

Licensing Contact

Cameron Sargent

615.322.5907

Inventors

Kevin Ruiz-Márquez, Jamey Young, Matthew McPhail, Sara Weidenbach
Category:
Biomanufacturing Research Tools Therapeutics
Field of Use:
Cardiovascular Infectious Disease Inflammatory/Immune/Wound Repair Oncology
Modality:
Nucleic Acid/ Plasmid
Research Tool Type:
Cell Line

Oxygen-Tolerant Probiotic Therapy for Intestinal Inflammatory Diseases

Vanderbilt researchers have engineered Bacteroides thetaiotaomicron, an obligate anaerobe, to endure oxygen-rich conditions in the gut, enhancing the survival and functionality of these probiotics used to treat inflammation.

Licensing Contact

Cameron Sargent

615.322.5907

Inventors

Wenhan Zhu, Abigail Rose
Category:
Research Tools Therapeutics
Field of Use:
Gastrointestinal Inflammatory/Immune/Wound Repair
Research Tool Type:
Cell Line

Long-Lasting and Self-Sustaining Cell Therapy System

Researchers at Vanderbilt have created a novel drug delivery system using two distinct T-cell populations that interact to promote engraftment and persistence in pre-clinical models, increasing the efficacy of T-cell therapies. Furthermore, "booster" treatments can be administered months after the first dose to produce an expansion of antigen specific T cells. These advantages result in longer-term therapeutic efficacy and could reduce the number of treatments required. This system also represents a viable self-renewing platform for the delivery of biologic drugs in patients who would otherwise require frequent administration.

Licensing Contact

Cameron Sargent

615.322.5907

Inventors

Matthew Wilson, Richard O'Neil
Category:
Therapeutics Vaccines
Field of Use:
Cardiovascular Inflammatory/Immune/Wound Repair Oncology

Anti-inflammatory microparticles for sustained ocular drug delivery

Vanderbilt researchers have developed an injectable drug delivery vehicle using microparticles (MPs) that not only provide sustained cargo delivery over extended time but also play a therapeutic role themselves in reducing inflammation. This drug delivery platform can be used in treating ocular diseases such as glaucoma and traumatic optic neuropathy, as well as other inflammatory diseases throughout the body like peripheral arterial disease and osteoarthritis.

Licensing Contact

Taylor Jordan

615.936.7505

Inventors

Craig Duvall, Carlisle DeJulius, Richard d'Arcy, Tonia Rex, Sarah Naguib
Category:
Therapeutics
Field of Use:
Inflammatory/Immune/Wound Repair Opthamology

Use of Fluid Shear Stress Treatment to Enhance T Cell Activation

Researchers at Vanderbilt University have developed a technique to enhance immune cell activation by exposing cells to mechanical force while culturing. Proof-of-concept data indicate that activating immune cells with this method may improve therapeutic efficacy and reduce manufacturing expenses, making powerful CAR T cell therapies more accessible to patients in need.

Licensing Contact

Cameron Sargent

615.322.5907

Inventors

Michael King, Jenna Dombroski, Jacob Hope, Nicole Sarna
Category:
Research Tools Therapeutics
Field of Use:
Inflammatory/Immune/Wound Repair Oncology Oncology
Modality:
Cellular Therapy
Research Tool Type:
Cellular Therapy

Anti-human Myeloid Cell Nuclear Differentiation Monoclonal Antibody

The antibody is a rat IgG1 monoclonal, clone 3C1.

Licensing Contact

Karen Rufus

615.322.4295

Inventors

Robert Briggs, Jingping Xie, Judith Briggs
Category:
Research Tools
Field of Use:
Inflammatory/Immune/Wound Repair
Modality:
Antibody
Research Tool Type:
Assays/Screening