Your search keyword '"Dapash, Mark"' showing total 13 results

1. B cell-based therapy produces antibodies that inhibit glioblastoma growth

Author

Wang, Si, Castro, Brandyn A., Katz, Joshua L., Arrieta, Victor, Najem, Hinda, Vazquez-Cervantes, Gustavo I., Wan, Hanxiao, Olson, Ian E., Hou, David, Dapash, Mark, Billingham, Leah K., Chia, Tzu- yi, Wei, Chao, Rashidi, Aida, Platanias, Leonidas C., McCortney, Kathleen, Horbinski, Craig M., Stupp, Roger, Zhang, Peng, Ahmed, Atique U., Sonabend, Adam M., Heimberger, Amy B., Lesniak, Maciej S., Riviere-Cazaux, Cecile, Burns, Terry, Miska, Jason, Fischietti, Mariafausta, and Lee-Chang, Catalina

Subjects

United States. National Cancer Institute -- Analysis, Thermo Fisher Scientific Inc., Biopharmaceutics -- Health aspects -- Analysis, Scientific equipment and supplies industry -- Health aspects -- Analysis, Viral antibodies -- Health aspects -- Analysis, Immunotherapy -- Analysis -- Health aspects, Ethylenediaminetetraacetic acid -- Analysis -- Health aspects, Brain tumors -- Prognosis, B cells -- Analysis -- Health aspects, Glioblastoma multiforme -- Prognosis, Vaccines -- Health aspects -- Analysis, Antibodies -- Health aspects -- Analysis, Health care industry

Abstract

Glioblastoma (GBM) is a highly aggressive and malignant brain tumor with limited therapeutic options and a poor prognosis. Despite current treatments, the invasive nature of GBM often leads to recurrence. A promising alternative strategy is to harness the potential of the immune system against tumor cells. Our previous data showed that the [B.sub.Vax] (B cell- based vaccine) can induce therapeutic responses in preclinical models of GBM. In this study, we aimed to characterize the antigenic reactivity of [B.sub.Vax]-derived Abs and evaluate their therapeutic potential. We performed immunoproteomics and functional assays in murine models and samples from patients with GBM. Our investigations revealed that [B.sub.Vax] distributed throughout the GBM tumor microenvironment and then differentiated into Ab-producing plasmablasts. Proteomics analyses indicated that the Abs produced by [B.sub.Vax] had unique reactivity, predominantly targeting factors associated with cell motility and the extracellular matrix. Crucially, these Abs inhibited critical processes such as GBM cell migration and invasion. These findings provide valuable insights into the therapeutic potential of [B.sub.Vax]-derived Abs for patients with GBM, pointing toward a novel direction for GBM immunotherapy., Introduction Glioblastoma (GBM) is an aggressive and malignant brain tumor that arises from glial cells (1). GBM is one of the most common and deadly forms of brain cancer in [...]

Published

2024

2. Correlation of post-contrast T1-weighted MRI surface regularity, tumor bulk, and necrotic volume with Ki67 and p53 in glioblastomas

Author

Hasse, Adam, Dapash, Mark, Jeong, Yong, Ansari, Sameer A., Carroll, Timothy J., Lesniak, Maciej, and Ginat, Daniel Thomas

Published

2019

3. B-cells Drive Response to PD-1 Blockade in Glioblastoma Upon Neutralization of TGFβ-mediated Immunosuppression

Author

Hou, David, primary, Castro, Brandyn, additional, Dapash, Mark, additional, Zolp, Andrew, additional, Katz, Joshua, additional, Arrieta, Víctor, additional, Biermann, Jana, additional, Melms, Johannes, additional, Kueckelhaus, Jan, additional, Benotmane, Jasim, additional, Youngblood, Mark, additional, Rashidi, Aida, additional, Billingham, Leah, additional, Dmello, Crismita, additional, Vazquez-Cervantes, Gustavo, additional, Lopez-Rosas, Aurora, additional, Han, Yu, additional, Patel, Ronit, additional, Chia, Tzu-yi, additional, Sun, Lu, additional, Prins, Robert, additional, Izar, Benjamin, additional, Heiland, Deiter Henrik, additional, Zhang, Peng, additional, Sonabend, Adam, additional, Miska, Jason, additional, Lesniak, Maciej, additional, Zhao, Junfei, additional, and Lee-Chang, Catalina, additional

Published

2023

4. 830 Targeting B cell suppression to improve the efficacy of immunotherapies in brain cancer

Author

Hou, David, primary, Castro, Brandyn, additional, Zolp, Andrew, additional, Dapash, Mark, additional, Arrieta, Victor, additional, Biermann, Jana, additional, Melms, Johannes, additional, Lesniak, Maciej, additional, Izar, Benjamin, additional, Miska, Jason, additional, Zhao, Junfei, additional, and Lee-Chang, Catalina, additional

Published

2022

5. TMIC-42. LEVERAGING B CELL IMMUNITY TO PROMOTE IMMUNOTHERAPY IN GLIOBLASTOMA

Author

Hou, David, primary, Castro, Brandyn, additional, Zolp, Andrew, additional, Dapash, Mark, additional, Arrieta, Victor, additional, Zhao, Junfei, additional, Zhang, Peng, additional, Rashidi, Aida, additional, Burnham, Emma, additional, Patel, Ronit, additional, Lesniak, Maciej, additional, Miska, Jason, additional, and Lee-Chang, Catalina, additional

Published

2022

6. IMMU-36. B CELL-VACCINE ELICITS LONG TERM IMMUNITY AGAINST GLIOBLASTOMA VIA ACTIVATION AND DIFFERENTIATION OF TUMOR-SPECIFIC CD8+ MEMORY T CELLS

Author

Hou, David, primary, Castro, Brandyn, additional, Dapash, Mark, additional, Rashidi, Aida, additional, Zhang, Peng, additional, Han, Yu, additional, Lopez-Rosas, Aurora, additional, Lesniak, Maciej, additional, Miska, Jason, additional, and Chang, Catalina, additional

Published

2021

7. TAMI-25. UPREGULATION OF CREATINE METABOLISM BY MYELOID CELLS RESULTS IN GLIOBLASTOMA PROGRESSION

Author

Rashidi, Aida, primary, Cordero, Alex, additional, Castro, Brandyn, additional, Hou, David, additional, Dapash, Mark, additional, Zhang, Peng, additional, Han, Yu, additional, Lopez-Rosas, Aurora, additional, Chandel, Navdeep, additional, Lesniak, Maciej, additional, Chang, Catalina, additional, and Miska, Jason, additional

Published

2021

8. EXTH-29. DUAL TGFB AND PD1 BLOCKADE PROMOTES GERMINAL-CENTER B-CELL IMMUNE RESPONSES AGAINST GLIOBLASTOMA

Author

Dapash, Mark, primary, Hou, David, additional, Castro, Brandyn, additional, Rashidi, Aida, additional, Zhang, Peng, additional, Stupp, Roger, additional, Miska, Jason, additional, Lesniak, Maciej, additional, and Chang, Catalina, additional

Published

2021

9. IMMU-29. B-CELL-BASED VACCINE PRODUCES GLIOBLASTOMA-REACTIVE ANTIBODIES THAT CONTRIBUTE TO TUMOR CLEARANCE

Author

Castro, Brandyn, primary, Dapash, Mark, additional, Hou, David, additional, Rashidi, Aida, additional, Kanojia, Deepak, additional, Zhang, Peng, additional, Lopez-Rosas, Aurora, additional, Han, Yu, additional, Balyasnikova, Irina, additional, Stupp, Roger, additional, Miska, Jason, additional, Lesniak, Maciej, additional, and Chang, Catalina, additional

Published

2021

10. Current Immunotherapeutic Strategies for the Treatment of Glioblastoma

Author

Dapash, Mark, primary, Castro, Brandyn, additional, Hou, David, additional, and Lee-Chang, Catalina, additional

Published

2021

11. The Interplay between Glioblastoma and Its Microenvironment

Author

Dapash, Mark, primary, Hou, David, additional, Castro, Brandyn, additional, Lee-Chang, Catalina, additional, and Lesniak, Maciej S., additional

Published

2021

12. Identification of Targetable Glioblastoma Specific Antigens Using a B-cell-based Vaccine.

Author

Castro, Brandyn, Dapash, Mark, Hou, David, Lee-Chang, Catalina, Lesniak, Maciej, Miska, Jason, Linh Nguyen, Rashidi, Aida, Junfei Zhao, Fischietti, Mariafausta, and Zolp, Andrew

Published

2022

13. B-cells Drive Response to PD-1 Blockade in Glioblastoma Upon Neutralization of TGFβ-mediated Immunosuppression.

Author

Hou D, Castro B, Dapash M, Zolp A, Katz J, Arrieta V, Biermann J, Melms J, Kueckelhaus J, Benotmane J, Youngblood M, Rashidi A, Billingham L, Dmello C, Vazquez-Cervantes G, Lopez-Rosas A, Han Y, Patel R, Chia TY, Sun L, Prins R, Izar B, Heiland DH, Zhang P, Sonabend A, Miska J, Lesniak M, Zhao J, and Lee-Chang C

Abstract

Immunotherapy has revolutionized cancer treatment but has yet to be translated into brain tumors. Studies in other solid tumors suggest a central role of B-cell immunity in driving immune-checkpoint-blockade efficacy. Using single-cell and single-nuclei transcriptomics of human glioblastoma and melanoma brain metastasis, we found that tumor-associated B-cells have high expression of checkpoint molecules, known to block B-cell-receptor downstream effector function such as plasmablast differentiation and antigen-presentation. We also identified TGFβ-1/TGFβ receptor-2 interaction as a crucial modulator of B-cell suppression. Treatment of glioblastoma patients with pembrolizumab induced expression of B-cell checkpoint molecules and TGFβ-receptor-2. Abrogation of TGFβ using different conditional knockouts expanded germinal-center-like intratumoral B-cells, enhancing immune-checkpoint-blockade efficacy. Finally, blocking αVβ8 integrin (which controls the release of active TGFβ) and PD-1 significantly increased B-cell-dependent animal survival and immunological memory. Our study highlights the importance of intratumoral B-cell immunity and a remodeled approach to boost the effects of immunotherapy against brain tumors., Competing Interests: Conflict of Interest B.I. has received consulting fees from Volastra Therapeutics Inc, Merck, AstraZeneca and Janssen Pharmaceuticals and has received research funding to Columbia University from Alkermes, Arcus Biosciences, Checkmate Pharmaceuticals, Compugen, Immunocore, and Synthekine.

Published

2023