Publications by authors named "J Jacobelli"
The EphB4-ephrinB2 signaling axis has been heavily implicated in metastasis across numerous cancer types. Our emerging understanding of the dichotomous roles that EphB4 and ephrinB2 play in head and neck squamous cell carcinoma (HNSCC) poses a significant challenge to rational drug design. We find that EphB4 knockdown in cancer cells enhances metastasis in preclinical HNSCC models by augmenting immunosuppressive cells like T regulatory cells (Tregs) within the tumor microenvironment.
View Article and Find Full Text PDFLymphocyte trafficking and migration through tissues is critical for adaptive immune function and, to perform their roles, T cells must be able to navigate through diverse tissue environments that present a range of mechanical challenges. T cells predominantly express two members of the formin family of actin effectors, Formin-like 1 (FMNL1) and mammalian diaphanous-related formin 1 (mDia1). While both FMNL1 and mDia1 have been studied individually, they have not been directly compared to determine functional differences in promoting T cell migration.
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- The EphB4-ephrinB2 system is important in cancer spreading (metastasis) for many types of cancer, including head and neck cancer.
- Reducing EphB4 in cancer cells can actually help them spread more because it increases certain immune cells that protect the tumor.
- Blocking ephrinB2 in blood vessels while treating with radiation can help boost the immune response against the tumor and reduce spreading, suggesting that targeting this system could help in fighting the cancer.
Significance: Stimulated emission depletion (STED) is a powerful super-resolution microscopy technique that can be used for imaging live cells. However, the high STED laser powers can cause significant photobleaching and sample damage in sensitive biological samples. The dynamic intensity minimum (DyMIN) technique turns on the STED laser only in regions of the sample where there is fluorescence signal, thus saving significant sample photobleaching.
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- Chronic Granulomatous Disease (CGD) is characterized by sterile pyogranulomas and increased cytokine production, indicating hyperinflammation.
- Research using zymosan-treated CGD and wild-type mice revealed that CGD cells form aggregates of neutrophils and monocyte-derived macrophages (MoMacs), driven by LTB signaling and CD11b expression.
- Disruption of CD11b in CGD mice led to poorly organized pyogranulomas and decreased inflammatory cytokine production, highlighting the importance of neutrophil aggregation in the inflammatory response.