Our work examines the role of proteasomal degradation—a process that breaks down proteins—as it relates to tumor antigen presentation, which is essential for immune recognition of cancer cells. Utilizing a method we developed in the lab, called MAPP (Mass Spectrometry Analysis of Proteasomally-Cleaved Peptides), we captured these degradation products and revealed how tumors, like non-small cell lung cancer (NSCLC), alter protein breakdown to avoid immune detection. These findings, recently published, suggest that targeting PSME4 could enhance immune recognition of cancer. We are now expanding our approach to examined the degradation landscape in other cancer types to uncover whether and how proteasomal degradation may be involved in shaping tumor inflammation, progression and the response to immunotherapy.
In another line of research, stemming from the MAPP technology, we found that cellular proteasomes may have an unappreciated role in innate immunity. Once confirmed, it suggest we may have a pool of naturally-cleaved antimicrobial peptides that may serve to combat antibiotic resistance. This will require to generate some computational models for predicting the potency ofOur work examines the role of proteasomal degradation—a process that breaks down proteins—as it relates to tumor antigen presentation, which is essential for immune recognition of cancer cells. Utilizing a method we developed in the lab, called MAPP (Mass Spectrometry Analysis of Proteasomally-Cleaved Peptides), we captured these degradation products and revealed how tumors, like non-small cell lung cancer (NSCLC), alter protein breakdown to avoid immune detection. These findings, recently published, suggest that targeting PSME4 could enhance immune recognition of cancer. We are now expanding our approach to examined the degradation landscape in other cancer types to uncover whether and how proteasomal degradation may be involved in shaping tumor inflammation, progression and the response to immunotherapy. such peptides prior to testing their role in vitro and in vivo.