TS-002176 — In order to effectively treat bacterial infections, a clear understanding of the bacterium’s antibiotic sensitivity is needed. Researchers at Nationwide Children’s Hospital’s Center for Microbial Pathogenesis created a new method to assist in prescribing antibiotics for infections caused by a biofilm to reduce the dosage and the length of antibiotic treatments.

TS-002168 — Children have a higher chance of morbidity and mortality from respiratory viral infections. Severe respiratory viral infections like Respiratory Syncytial Virus (RSV) and Parainfluenza viruses can lead to the development of asthma in patients. Clinical researchers at Nationwide Children’s Hospital found that neuregulin-1 (Nrg-1) may be an effective and protective treatment for patients diagnosed with severe respiratory viral infections. Their successful models with mice showed that Nrg-1 may prevent post-viral airway disease and reduce mortality if further studied and applied to human patients in the future.

TS-001034 — Salmonella is often caused by contact with animals that carry bacteria, contaminated food, or water. It has been observed that children are commonly afflicted by salmonella, and typically treatment includes fluids, medical care, and sometimes pharmaceuticals. A team of researchers at Nationwide Children’s hospital have identified a lead compound that includes a biofilm with anti-salmonella characteristics and acts as an inhibitor. Use of this compound with the antibiotic ciprofloxacin improves the elimination of bacterial infection in at-risk organs such as the liver and spleen.

TS-000913 — Peptides can be used to stimulate antigen-specific T cells, allowing activated T cells to be isolated from immune individuals to be used in vaccination or treatment in others. The novel disease Coronavirus, also denoted as 2019-nCoV, was recognized by the World Health Organization as an unknown etiology in December of 2019. Severe Acute Respiratory Syndrome (SARS) is a disease that presents flu-like symptoms that is caused by coronavirus (SARS-CoV). A current process widely applicable to many pathogens uses the Miltenyi Prodigy device. In a study led by Dr. Dean Lee, his team found that this process can be adapted to SARS-CoV-2 using a specialty mix of peptides to isolate T cell immunity.

TS-000906 — Natural Killer (NK) cells express a range of receptors to activate or inhibit certain cellular behavior to kill cancer cells. Additionally, CD38 presenting cells have been used as a marker for cancer stem cells, specifically those that often avoid recognition when common surface antigen processes are used. CARK1 is a phosphorylate that impacts cell growth and development. A team led by Dr. Dean Lee has developed CD38k0 NK cells that they combine with CARK1 to create a series of monoclonal antibodies that targets cancer cells. Along with better cell targeting, this combination improves the efficacy of treatment in comparison to the CAR, NK, or CD38 antibodies as independent components.

TS-000873 — The current timeframe required for current Good Manufacturing Product (cGMP) validation and approval is significant. The delay between development and approval is time intensive and the advancements that can improve treatment can be outdated by the time they reach the market. Genetic modifications would lead to restarting the production and approval process and delaying the introduction of the entry into human trials. Dr. Kevin Cassady and his team found that combinations of oncolytic viruses (OV) can be combined using current, approved cGMP stocks can be employed effectively and subsequently saving time that would have been spent on re-engineering, production, and validation, as well as the expense associated. The clinical outcome would be improved as this new process allows for a more rapid and cost-effective approach to clinical translation using existing stock of virus.

TS-000859 — Nephrotic syndrome (NS) is a common kidney disease found in children that creates an overabundance of protein in the urine, comparable to proteinuria in adults. As of now, there are no approved safe and effective treatment for NS, especially for those whose NS is steroid or multi-drug resistant. A team of researchers have identified a series of new molecular targets for future drug development. Using glomerular transcriptomes and informatic analysis, clinicians will be able to identify immunosuppressive approaches that are distinct from the current procedures.

TS-000857 — CD33 is a receptor that spans multiple membranes and is expressed on myeloid lineage cells and sometimes lymphoid cells. A team of researchers led by Dr. Dean Lee have found a new way to modify existing CD33 processes to provide Natural Killer (NK) cells the additional ability to recognize cell targets expressing CD33. Acute Myeloid Leukemia (AML) expresses multiple antigens, where CD33 is the most common. This new process, labeled as CD33-CAR, shows a significant advantage in targeting AML that presents with CD33, especially in cases that resist unmodified NK cells.

TS-000854 — Dr. Kevin Cassady and his team have identified an amino acid epitope encoded from Syndecan 4 (SDC4) that binds to a receptor protein on immunosuppressive myeloid and dendric cells called GPNMB. This group has developed a series of fusion proteins including FcGamma (Fcγ) fusions to encode the binding GPNMB-interacting domain, and shared antigens containing epitope tags. They have incorporated the fusion into virus expressed antigens to target myeloid cells in the tumor microenvironment in order to change their functional activity and enhance uptake and processing of antigens. Because SDC4 and GPNMB act as co-inhibitory molecules, they anticipate that fusion proteins will disrupt this interaction, which will enhance T cell activity and could be used as an anti-cancer immunotherapy.

TS-000842 — In gene expression studies from early oHSV clinical trials, it was found that the cytokine IL27 is a potential target for therapeutic optimization. The cytokine’s expression levels are observed to be directly related to the improvement of the patient survival following treatment that includes an oncolytic HSV. Early data collected by Dr. Kevin Cassady confirms that the virus-based expression correlates with improved survival, and reduced tumor cell growth and has cleared immune cells from the tumors as well.