Juliane Walz | Immunotechnology | Best Researcher Award

Published on by Biotechnology Scientist

Prof. Dr. Juliane Walz | Immunotechnology | Best Researcher Award

W3 Professor and Medical Director at Department of Peptide-based Immunotherapy | University Hospital Tübingen | Germany

Prof. Dr. Juliane Walz is a distinguished scholar and medical researcher recognized for her pioneering contributions in peptide-based immunotherapy, translational oncology, and infectious disease immunity, establishing herself as a leader at the forefront of clinical and experimental medicine. Prof. Dr. Juliane Walz completed her medical education with highest distinction, further advancing her academic credentials through rigorous postdoctoral training and habilitation, which solidified her expertise in translational immunology. Prof. Dr. Juliane Walz currently serves as W3 Professor for Peptide-based Immunotherapy and Medical Director of the Clinical Cooperation Unit for Translational Immunology at the University Hospital Tübingen, where she has built a reputation for integrating clinical practice with groundbreaking research. Prof. Dr. Juliane Walz’s research interests encompass tumor immunology, T-cell biology, biomarker discovery, and the development of novel immunotherapeutic strategies targeting cancer and viral infections, with a special focus on clinical applications that directly benefit patients. Prof. Dr. Juliane Walz has developed advanced research skills in immunopeptidomics, epitope identification, biomarker validation, clinical trial design, and translational research methodologies that connect laboratory insights with real-world therapeutic solutions. Prof. Dr. Juliane Walz has published in high-impact peer-reviewed journals, with a record of 671 citations by 526 documents, authoring 13 documents and achieving an h-index of 9, reflecting the strong visibility and influence of her work within the global scientific community. Prof. Dr. Juliane Walz has been honored with multiple awards and recognitions for excellence in medical research, innovative immunotherapy approaches, and academic leadership, affirming her status as a leading figure in her field. Prof. Dr. Juliane Walz also actively mentors students, leads collaborative projects across international institutions, and contributes to advancing academic and clinical networks that shape the future of immunology and oncology. In conclusion, Prof. Dr. Juliane Walz’s career embodies an inspiring combination of rigorous education, impactful professional experience, diverse research interests, advanced research skills, and well-deserved awards and honors, making her an influential figure whose contributions continue to push the boundaries of modern medicine and translational research.

Profile: Scopus | Orcid | Google Scholar

Featured Publications

Nelde, A., Bilich, T., Heitmann, J. S., Maringer, Y., Salih, H. R., Roerden, M., … Walz, J. S. (2021). SARS-CoV-2-derived peptides define heterologous and COVID-19-induced T cell recognition. Nature Immunology, 22(1), 74–85.

Heitmann, J. S., Bilich, T., Tandler, C., Nelde, A., Maringer, Y., Marconato, M., … Walz, J. S. (2022). A COVID-19 peptide vaccine for the induction of SARS-CoV-2 T cell immunity. Nature, 601(7894), 617–622.

Marcu, A., Bichmann, L., Kuchenbecker, L., Kowalewski, D. J., … Walz, J. S. (2021). HLA Ligand Atlas: A benign reference of HLA-presented peptides to improve T-cell-based cancer immunotherapy. Journal for Immunotherapy of Cancer, 9(4), e002071.

Schuster, H., Peper, J. K., Boesmueller, H. C., Roehle, K., Backert, L., Bilich, T., … Walz, J. S. (2017). The immunopeptidomic landscape of ovarian carcinomas. Proceedings of the National Academy of Sciences, 114(46), E9942–E9951.

Nelde, A., Rammensee, H. G., & Walz, J. S. (2021). The peptide vaccine of the future. Molecular & Cellular Proteomics, 20, 100022.

Kowalewski, D. J., Schuster, H., Backert, L., Berlin, C., Kahn, S., Kanz, L., … Walz, J. S. (2015). HLA ligandome analysis identifies the underlying specificities of spontaneous antileukemia immune responses in chronic lymphocytic leukemia (CLL). Proceedings of the National Academy of Sciences, 112(2), E166–E175.

Bilich, T., Nelde, A., Heitmann, J. S., Maringer, Y., Roerden, M., Bauer, J., Rieth, J., … Walz, J. S. (2021). T cell and antibody kinetics delineate SARS-CoV-2 peptides mediating long-term immune responses in COVID-19 convalescent individuals. Science Translational Medicine, 13(590), eabf7517.

Jingwei Sun | Immunotechnology | Biotechnology Trailblazer Award

Published on by Biotechnology Scientist

Dr. Jingwei Sun | Immunotechnology | Biotechnology Trailblazer Award

Vice President at Grit Biotechnology | China

Dr. Jingwei Sun, Vice President of Grit Biotechnology, is an accomplished biotechnology researcher specializing in immuno-oncology, cell therapy, and gene editing, with a distinguished academic foundation and global research impact. He earned his Ph.D. in Immunology from Yale University, where he trained under Professor Lieping Chen, the discoverer of PD-L1, and contributed to pioneering immune-oncology research that has been published in high-impact journals such as Nature Medicine, Cell, Cancer Discovery, and Molecular Therapy. Professionally, Dr. Sun has transitioned seamlessly from academia to industry, spearheading the development of next-generation cell and gene therapies, including tumor-infiltrating lymphocyte (TIL) therapies, CRISPR-based products, and cancer vaccines, many of which are currently advancing through pivotal clinical trials in the U.S. and China. His research interests focus on immune pathway discovery, novel antibody drugs, targeted lipid nanoparticle (LNP) delivery, and clinically translatable gene-editing platforms, exemplified by his groundbreaking AaCas12bMAX system that achieved over 80% on-target editing efficiency with undetectable off-target events, now enabling GT307, the world’s first Cas12b-edited dual knockout TIL product submitted to the FDA. With over 50 patents filed and granted in regions including Australia, Japan, and South Korea, his innovative methods for treating cancers and autoimmune diseases have also been licensed to industry partners such as NextCure, Inc. His skills span translational immunology, CRISPR screening, antibody drug development, and clinical trial design, supported by collaborations with leading institutions and companies such as Instil Bio. Dr. Sun’s work has resulted in multiple clinical-stage assets, including NC318, GT101, GT201, GT307, GT601, and GT801, representing first-in-class approaches to tackling solid tumors. His achievements are recognized by a strong citation record on Google Scholar and a significant publication footprint across SCI and Scopus-indexed journals. As a trailblazing scientist, he has bridged fundamental research with clinical application, ensuring his discoveries directly impact patient care. In conclusion, Dr. Sun’s career exemplifies scientific leadership, innovation, and translational excellence in biotechnology, and his contributions to developing advanced immunotherapies and gene-edited products highlight his role as a global leader driving the future of cancer treatment.

Profile: Scopus | Orcid | Google Scholar

Featured Publications

Wang, J., Sanmamed, M. F., Datar, I., Su, T. T., Ji, L., Sun, J., Chen, L., Chen, Y., … (2019). Fibrinogen-like protein 1 is a major immune inhibitory ligand of LAG-3. Cell, 176(1), 334–347.e12.

Wang, J., Sun, J., Liu, L. N., Flies, D. B., Nie, X., Toki, M., Zhang, J., Song, C., Zarr, M., … (2019). Siglec-15 as an immune suppressor and potential target for normalization cancer immunotherapy. Nature Medicine, 25(4), 656–666.

Flies, D. B., Han, X., Higuchi, T., Zheng, L., Sun, J., Ye, J. J., & Chen, L. (2014). Coinhibitory receptor PD-1H preferentially suppresses CD4+ T cell–mediated immunity. The Journal of Clinical Investigation, 124(5), 1966–1975.

Wang, S., Sun, J., Chen, K., Ma, P., Lei, Q., Xing, S., Cao, Z., Sun, S., Yu, Z., Liu, Y., … (2021). Perspectives of tumor-infiltrating lymphocyte treatment in solid tumors. BMC Medicine, 19(1), 140.

Sun, J., Lu, Q., Sanmamed, M. F., & Wang, J. (2021). Siglec-15 as an emerging target for next-generation cancer immunotherapy. Clinical Cancer Research, 27(3), 680–688.

Sanmamed, M. F., Nie, X., Desai, S. S., Villaroel-Espindola, F., Badri, T., Zhao, D., … (2021). A burned-out CD8+ T-cell subset expands in the tumor microenvironment and curbs cancer immunotherapy. Cancer Discovery, 11(7), 1700–1715.

Wang, J., Yuan, R., Song, W., Sun, J., Liu, D., & Li, Z. (2017). PD-1, PD-L1 (B7-H1) and tumor-site immune modulation therapy: The historical perspective. Journal of Hematology & Oncology, 10(1), 34.