An immunophenotype-coupled transcriptomic atlas of human hematopoietic progenitors

Zhang, X., Song, B., Carlino, M. J., Li, G., Ferchen, K., Chen, M., Thompson, E. N., Kain, B. N., Schnell, D., Thakkar, K., Kouril, M., Jin, K., Hay, S. B., Sen, S., Bernardicius, D., Ma, S., Bennett, S. N., Croteau, J., Salvatori, O., . . . Grimes, H. L. (2024). Nature Immunology, 25(4), 703–715. https://doi.org/10.1038/s41590-024-01782-4 […]

Nanomedicine-based co-delivery of a calcium channel inhibitor and a small molecule targeting CD47 for lung cancer immunotherapy

Guo, Y., Bao, Q., Hu, P., & Shi, J. (2023). Nature Communications, 14(1). https://doi.org/10.1038/s41467-023-42972-2 Pro-tumoral macrophages in lung tumors present a significant challenge in immunotherapy. Here, we introduce a pH-responsive nanomedicine approach for activating anti-tumoral macrophages and dendritic cells. Using a layered double hydroxide nanosheet carrier, we co-deliver a T-type calcium channel inhibitor (TTA-Q6) and […]

High-throughput antibody discovery to cell surface proteins

View original Presentation Nadiezda Fernandez Oropeza: Okay, good afternoon everyone. Hello, my name is Nadiezda Fernandez Oropeza, and I am the US Field Application Manager at Curiox Biosystems. I thank you for joining me today to talk about the importance of sample prep, and the effects it can have in the quality of your data. […]

High-throughput antibody discovery to cell surface proteins

Now Watchinghttps://youtu.be/LJc8mh2qNpo Advances in the field of flow cytometry, particularly in the areas of plate-based sampling and high-throughput assays have greatly enabled antibody discovery processes. A major consideration with high-throughput flow cytometry has been the time and workflow for removing non-specific antibody binding to cells or protein coated beads by washing via centrifugation. No-wash flow-based […]

Surfaceome mapping of primary human heart cells with CellSurfer uncovers cardiomyocyte surface protein LSMEM2 and proteome dynamics in failing hearts

Luecke, L. B., Waas, M., Littrell, J., Wojtkiewicz, M., Castro, C., Burkovetskaya, M., Schuette, E. N., Buchberger, A. R., Churko, J. M., Chalise, U., Waknitz, M., Konfrst, S., Teuben, R., Morrissette-McAlmon, J., Mahr, C., Anderson, D. R., Boheler, K. R., & Gundry, R. L. (2023). Nature Cardiovascular Research, 2(1), 76–95. https://doi.org/10.1038/s44161-022-00200-y Cardiac cell surface proteins […]