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1. Numerical optimization of microfluidic vortex shedding for genome editing T cells with Cas9

Author

Justin A. Jarrell, Brandon J. Sytsma, Leah H. Wilson, Fong L. Pan, Katherine H. W. J. Lau, Giles T. S. Kirby, Adrian A. Lievano, and Ryan S. Pawell

Subjects
Medicine, Science
Abstract

Abstract Microfluidic vortex shedding (µVS) can rapidly deliver mRNA to T cells with high yield and minimal perturbation of the cell state. The mechanistic underpinning of µVS intracellular delivery remains undefined and µVS-Cas9 genome editing requires further studies. Herein, we evaluated a series of µVS devices containing splitter plates to attenuate vortex shedding and understand the contribution of computed force and frequency on efficiency and viability. We then selected a µVS design to knockout the expression of the endogenous T cell receptor in primary human T cells via delivery of Cas9 ribonucleoprotein (RNP) with and without brief exposure to an electric field (eµVS). µVS alone resulted in an equivalent yield of genome-edited T cells relative to electroporation with improved cell quality. A 1.8-fold increase in editing efficiency was demonstrated with eµVS with negligible impact on cell viability. Herein, we demonstrate efficient processing of 5 × 106 cells suspend in 100 µl of cGMP OptiMEM in under 5 s, with the capacity of a single device to process between 106 to 108 in 1 to 30 s. Cumulatively, these results demonstrate the rapid and robust utility of µVS and eµVS for genome editing human primary T cells with Cas9 RNPs.

Published
2021
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3. Intratumoral delivery of tavokinogene telseplasmid yields systemic immune responses in metastatic melanoma patients

Author

Algazi, A, Bhatia, S, Agarwala, S, Molina, M, Lewis, K, Faries, M, Fong, L, Levine, LP, Franco, M, Oglesby, A, Ballesteros-Merino, C, Bifulco, CB, Fox, BA, Bannavong, D, Talia, R, Browning, E, Le, MH, Pierce, RH, Gargosky, S, Tsai, KK, Twitty, C, and Daud, AI

Subjects
Vaccine Related, Immunization, Clinical Trials and Supportive Activities, Clinical Research, Genetics, Cancer, Evaluation of treatments and therapeutic interventions, 6.1 Pharmaceuticals, Detection, screening and diagnosis, 4.2 Evaluation of markers and technologies, Electroporation, Humans, Immunity, Interleukin-12, Melanoma, Plasmids, Prospective Studies, Skin Neoplasms, Immunotherapy, IL-12, Tavokinogene telseplasmid, intratumoral, melanoma, electroporation, cytokine, Oncology and Carcinogenesis, Oncology & Carcinogenesis
Abstract

BackgroundInterleukin 12 (IL-12) is a pivotal regulator of innate and adaptive immunity. We conducted a prospective open-label, phase II clinical trial of electroporated plasmid IL-12 in advanced melanoma patients (NCT01502293).Patients and methodsPatients with stage III/IV melanoma were treated intratumorally with plasmid encoding IL-12 (tavokinogene telseplasmid; tavo), 0.5 mg/ml followed by electroporation (six pulses, 1500 V/cm) on days 1, 5, and 8 every 90 days in the main study and additional patients were treated in two alternative schedule exploration cohorts. Correlative analyses for programmed death-ligand 1 (PD-L1), flow cytometry to assess changes in immune cell subsets, and analysis of immune-related gene expression were carried out on pre- and post-treatment samples from study patients, as well as from additional patients treated during exploration of additional dosing schedules beyond the pre-specified protocol dosing schedule. Response was measured by study-specific criteria to maximize detection of latent and potentially transient immune responses in patients with multiple skin lesions and toxicities were graded by the Common Terminology Criteria for Adverse Events version 4.0 (CTCAE v4.0).ResultsThe objective overall response rate was 35.7% in the main study (29.8% in all cohorts), with a complete response rate of 17.9% (10.6% in all cohorts). The median progression-free survival in the main study was 3.7 months while the median overall survival was not reached at a median follow up of 29.7 months. A total of 46% of patients in all cohorts with uninjected lesions experienced regression of at least one of these lesions and 25% had a net regression of all untreated lesions. Transcriptomic and immunohistochemistry analysis showed that immune activation and co-stimulatory transcripts were up-regulated but there was also increased adaptive immune resistance.ConclusionsIntratumoral Tavo was well tolerated and led to systemic immune responses in advanced melanoma patients. While tumor regression and increased immune infiltration were observed in treated as well as untreated/distal lesions, adaptive immune resistance limited the response.

Published
2020

4. Randomized phase III KEYNOTE-045 trial of pembrolizumab versus paclitaxel, docetaxel, or vinflunine in recurrent advanced urothelial cancer: results of >2 years of follow-up

Author

Fradet, Y, Bellmunt, J, Vaughn, DJ, Lee, JL, Fong, L, Vogelzang, NJ, Climent, MA, Petrylak, DP, Choueiri, TK, Necchi, A, Gerritsen, W, Gurney, H, Quinn, DI, Culine, S, Sternberg, CN, Nam, K, Frenkl, TL, Perini, RF, de Wit, R, and Bajorin, DF

Subjects
Clinical Research, Cancer, Clinical Trials and Supportive Activities, 6.1 Pharmaceuticals, Evaluation of treatments and therapeutic interventions, Adult, Antibodies, Monoclonal, Humanized, Antineoplastic Combined Chemotherapy Protocols, Docetaxel, Follow-Up Studies, Humans, Neoplasm Recurrence, Local, Paclitaxel, Prognosis, Response Evaluation Criteria in Solid Tumors, Survival Rate, Urologic Neoplasms, Vinblastine, PD-L1, PD-1, pembrolizumab, urothelial cancer, Oncology and Carcinogenesis, Oncology & Carcinogenesis
Abstract

BackgroundNovel second-line treatments are needed for patients with advanced urothelial cancer (UC). Interim analysis of the phase III KEYNOTE-045 study showed a superior overall survival (OS) benefit of pembrolizumab, a programmed death 1 inhibitor, versus chemotherapy in patients with advanced UC that progressed on platinum-based chemotherapy. Here we report the long-term safety and efficacy outcomes of KEYNOTE-045.Patients and methodsAdult patients with histologically/cytologically confirmed UC whose disease progressed after first-line, platinum-containing chemotherapy were enrolled. Patients were randomly assigned 1 : 1 to receive pembrolizumab [200 mg every 3 weeks (Q3W)] or investigator's choice of paclitaxel (175 mg/m2 Q3W), docetaxel (75 mg/m2 Q3W), or vinflunine (320 mg/m2 Q3W). Primary end points were OS and progression-free survival (PFS) per Response Evaluation Criteria in Solid Tumors, version 1.1 (RECIST v1.1) by blinded independent central radiology review (BICR). A key secondary end point was objective response rate per RECIST v1.1 by BICR.ResultsA total of 542 patients were enrolled (pembrolizumab, n = 270; chemotherapy, n = 272). Median follow-up as of 26 October 2017 was 27.7 months. Median 1- and 2-year OS rates were higher with pembrolizumab (44.2% and 26.9%, respectively) than chemotherapy (29.8% and 14.3%, respectively). PFS rates did not differ between treatment arms; however, 1- and 2-year PFS rates were higher with pembrolizumab. The objective response rate was also higher with pembrolizumab (21.1% versus 11.0%). Median duration of response to pembrolizumab was not reached (range 1.6+ to 30.0+ months) versus chemotherapy (4.4 months; range 1.4+ to 29.9+ months). Pembrolizumab had lower rates of any grade (62.0% versus 90.6%) and grade ≥3 (16.5% versus 50.2%) treatment-related adverse events than chemotherapy.ConclusionsLong-term results (>2 years' follow-up) were consistent with those of previously reported analyses, demonstrating continued clinical benefit of pembrolizumab over chemotherapy for efficacy and safety for treatment of locally advanced/metastatic, platinum-refractory UC.Trial registrationClinicalTrials.gov: NCT02256436.

Published
2019

6. Predictors of responses to immune checkpoint blockade in advanced melanoma.

Author

Jacquelot, N, Roberti, MP, Enot, DP, Rusakiewicz, S, Ternès, N, Jegou, S, Woods, DM, Sodré, AL, Hansen, M, Meirow, Y, Sade-Feldman, M, Burra, A, Kwek, SS, Flament, C, Messaoudene, M, Duong, CPM, Chen, L, Kwon, BS, Anderson, AC, Kuchroo, VK, Weide, B, Aubin, F, Borg, C, Dalle, S, Beatrix, O, Ayyoub, M, Balme, B, Tomasic, G, Di Giacomo, AM, Maio, M, Schadendorf, D, Melero, I, Dréno, B, Khammari, A, Dummer, R, Levesque, M, Koguchi, Y, Fong, L, Lotem, M, Baniyash, M, Schmidt, H, Svane, IM, Kroemer, G, Marabelle, A, Michiels, S, Cavalcanti, A, Smyth, MJ, Weber, JS, Eggermont, AM, and Zitvogel, L

Abstract

Immune checkpoint blockers (ICB) have become pivotal therapies in the clinical armamentarium against metastatic melanoma (MMel). Given the frequency of immune related adverse events and increasing use of ICB, predictors of response to CTLA-4 and/or PD-1 blockade represent unmet clinical needs. Using a systems biology-based approach to an assessment of 779 paired blood and tumor markers in 37 stage III MMel patients, we analyzed association between blood immune parameters and the functional immune reactivity of tumor-infiltrating cells after ex vivo exposure to ICB. Based on this assay, we retrospectively observed, in eight cohorts enrolling 190 MMel patients treated with ipilimumab, that PD-L1 expression on peripheral T cells was prognostic on overall and progression-free survival. Moreover, detectable CD137 on circulating CD8+ T cells was associated with the disease-free status of resected stage III MMel patients after adjuvant ipilimumab + nivolumab (but not nivolumab alone). These biomarkers should be validated in prospective trials in MMel.The clinical management of metastatic melanoma requires predictors of the response to checkpoint blockade. Here, the authors use immunological assays to identify potential prognostic/predictive biomarkers in circulating blood cells and in tumor-infiltrating lymphocytes from patients with resected stage III melanoma.

Published
2017

7. Zinc Gluconate Induces Potentially Cancer Chemopreventive Activity in Barrett’s Esophagus: A Phase 1 Pilot Study

Author

Valenzano, M. C., Rybakovsky, E., Chen, V., Leroy, K., Lander, J., Richardson, E., Yalamanchili, S., McShane, S., Mathew, A., Mayilvaganan, B., Connor, L., Urbas, R., Huntington, W., Corcoran, A., Trembeth, S., McDonnell, E., Wong, P., Newman, G., Mercogliano, G., Zitin, M., Etemad, B., Thornton, J., Daum, G., Raines, J., Kossenkov, A., Fong, L. Y., and Mullin, J. M.

Published
2021
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9. Modeling lung adenocarcinoma metastases using patient-derived organoids

Author

Liu, Yuan, Lankadasari, Manendra, Rosiene, Joel, Johnson, Kofi E., Zhou, Juan, Bapat, Samhita, Chow-Tsang, Lai-Fong L., Tian, Huasong, Mastrogiacomo, Brooke, He, Di, Connolly, James G., Lengel, Harry B., Caso, Raul, Dunne, Elizabeth G., Fick, Cameron N., Rocco, Gaetano, Sihag, Smita, Isbell, James M., Bott, Mathew J., Li, Bob T., Lito, Piro, Brennan, Cameron W., Bilsky, Mark H., Rekhtman, Natasha, Adusumilli, Prasad S., Mayo, Marty W., Imielinski, Marcin, and Jones, David R.

Published
2024
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10. A phase 1 trial of imatinib, bevacizumab, and metronomic cyclophosphamide in advanced colorectal cancer

Author

Kelley, RK, Hwang, J, Magbanua, MJM, Watt, L, Beumer, JH, Christner, SM, Baruchel, S, Wu, B, Fong, L, Yeh, BM, Moore, AP, Ko, AH, Korn, WM, Rajpal, S, Park, JW, Tempero, MA, Venook, AP, and Bergsland, EK

Subjects
Biomedical and Clinical Sciences, Clinical Sciences, Oncology and Carcinogenesis, Immunology, Digestive Diseases, Cancer, Colo-Rectal Cancer, Clinical Research, Stem Cell Research, Stem Cell Research - Nonembryonic - Human, Clinical Trials and Supportive Activities, 6.2 Cellular and gene therapies, 6.1 Pharmaceuticals, Evaluation of treatments and therapeutic interventions, Adult, Aged, Angiogenesis Inhibitors, Antibodies, Monoclonal, Humanized, Antineoplastic Agents, Antineoplastic Combined Chemotherapy Protocols, Benzamides, Bevacizumab, Colorectal Neoplasms, Cyclophosphamide, Drug Administration Schedule, Female, Humans, Imatinib Mesylate, Male, Maximum Tolerated Dose, Middle Aged, Neoplastic Cells, Circulating, Piperazines, Pyrimidines, Treatment Outcome, Public Health and Health Services, Oncology & Carcinogenesis, Oncology and carcinogenesis
Abstract

BackgroundThis phase 1 clinical trial was conducted to determine the safety, maximum-tolerated dose (MTD), and pharmacokinetics of imatinib, bevacizumab, and metronomic cyclophosphamide in patients with advanced colorectal cancer (CRC).MethodsPatients with refractory stage IV CRC were treated with bevacizumab 5 mg kg(-1) i.v. every 2 weeks (fixed dose) plus oral cyclophosphamide q.d. and imatinib q.d. or b.i.d. in 28-day cycles with 3+3 dose escalation. Response was assessed every two cycles. Pharmacokinetics of imatinib and cyclophosphamide and circulating tumour, endothelial, and immune cell subsets were measured.ResultsThirty-five patients were enrolled. Maximum-tolerated doses were cyclophosphamide 50 mg q.d., imatinib 400 mg q.d., and bevacizumab 5 mg kg(-1) i.v. every 2 weeks. Dose-limiting toxicities (DLTs) included nausea/vomiting, neutropaenia, hyponatraemia, fistula, and haematuria. The DLT window required expansion to 42 days (1.5 cycles) to capture delayed toxicities. Imatinib exposure increased insignificantly after adding cyclophosphamide. Seven patients (20%) experienced stable disease for >6 months. Circulating tumour, endothelial, or immune cells were not associated with progression-free survival.ConclusionThe combination of metronomic cyclophosphamide, imatinib, and bevacizumab is safe and tolerable without significant drug interactions. A subset of patients experienced prolonged stable disease independent of dose level.

Published
2013

12. Efficacy and safety of pembrolizumab in metastatic urothelial carcinoma: results from KEYNOTE-045 and KEYNOTE-052 after up to 5 years of follow-up

Author

Balar, A.V., primary, Castellano, D.E., additional, Grivas, P., additional, Vaughn, D.J., additional, Powles, T., additional, Vuky, J., additional, Fradet, Y., additional, Lee, J.-L., additional, Fong, L., additional, Vogelzang, N.J., additional, Climent, M.A., additional, Necchi, A., additional, Petrylak, D.P., additional, Plimack, E.R., additional, Xu, J.Z., additional, Imai, K., additional, Moreno, B.H., additional, Bellmunt, J., additional, de Wit, R., additional, and O’Donnell, P.H., additional

Published
2023
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13. Efficacy and safety of pembrolizumab in metastatic urothelial carcinoma:results from KEYNOTE-045 and KEYNOTE-052 after up to 5 years of follow-up

Author

Balar, A. V., Castellano, D. E., Grivas, P., Vaughn, D. J., Powles, T., Vuky, J., Fradet, Y., Lee, J. L., Fong, L., Vogelzang, N. J., Climent, M. A., Necchi, A., Petrylak, D. P., Plimack, E. R., Xu, J. Z., Imai, K., Moreno, B. H., Bellmunt, J., de Wit, R., O'Donnell, P. H., Balar, A. V., Castellano, D. E., Grivas, P., Vaughn, D. J., Powles, T., Vuky, J., Fradet, Y., Lee, J. L., Fong, L., Vogelzang, N. J., Climent, M. A., Necchi, A., Petrylak, D. P., Plimack, E. R., Xu, J. Z., Imai, K., Moreno, B. H., Bellmunt, J., de Wit, R., and O'Donnell, P. H.

Abstract

Background: Immune checkpoint inhibitors are a standard therapy in metastatic urothelial carcinoma (UC). Long-term follow-up is necessary to confirm durability of response and identify further safety concerns. Patients and methods: In KEYNOTE-045, patients with metastatic UC that progressed on platinum-containing chemotherapy were randomly assigned 1:1 to receive pembrolizumab or investigator's choice of paclitaxel, docetaxel, or vinflunine. Primary endpoints were progression-free survival per RECIST version 1.1 by blinded independent central review (BICR) and overall survival. In KEYNOTE-052, cisplatin-ineligible patients with metastatic UC received first-line pembrolizumab. The primary endpoint was objective response rate per RECIST version 1.1 by BICR. Results: A total of 542 patients (pembrolizumab, n = 270; chemotherapy, n = 272) were randomly assigned in KEYNOTE-045. The median follow-up was 62.9 months (range 58.6-70.9 months; data cut-off 1 October 2020). At 48 months, overall survival rates were 16.7% for pembrolizumab and 10.1% for chemotherapy; progression-free survival rates were 9.5% and 2.7%, respectively. The median duration of response (DOR) was 29.7 months (range 1.6+ to 60.5+ months) for pembrolizumab and 4.4 months (range 1.4+ to 63.1+ months) for chemotherapy; 36-month DOR rates were 44.4% and 28.3%, respectively. A total of 370 patients were enrolled in KEYNOTE-052. The median follow-up was 56.3 months (range 51.2-65.3 months; data cut-off 26 September 2020). The confirmed objective response rate was 28.9% (95% confidence interval 24.3-33.8), and the median DOR was 33.4 months (range 1.4+ to 60.7+ months); the 36-month DOR rate was 44.8%. Most treatment-related adverse events for pembrolizumab in either study were grade 1 or 2 and manageable, which is consistent with prior reports. Conclusion: With ∼5 years of follow-up, pembrolizumab monotherapy continued to demonstrate durable efficacy with no new safety signals in patients with platinum-re

Published
2023

15. 1404P A phase II study of ZEN-3694 (ZEN), enzalutamide (ENZ), and pembrolizumab (P) in metastatic castration resistant prostate cancer (mCRPC): Interim safety results

Author

Jindal, T., primary, Han, H., additional, Deshmukh, P.S., additional, De Kouchkovsky, I., additional, Kwon, D., additional, Borno, H.T., additional, Koshkin, V.S., additional, Desai, A., additional, Bose, R., additional, Chou, J., additional, Friedlander, T., additional, Small, E.J., additional, Angelidakis, A., additional, Johnson, M.S., additional, Feng, S., additional, Patnaik, A., additional, Fong, L., additional, Alumkal, J., additional, and Aggarwal, R., additional

Published
2022
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16. 1379P A phase Ib study of a single priming dose of 177Lu-PSMA-617 coupled with pembrolizumab in metastatic castration resistant prostate cancer (mCRPC)

Author

Aggarwal, R., primary, Trihy, L., additional, Hernandez Romero, E., additional, Luch Sam, S., additional, Rastogi, M., additional, De Kouchkovsky, I., additional, Small, E.J., additional, Feng, F., additional, Kwon, D., additional, Friedlander, T., additional, Borno, H.T., additional, Bose, R., additional, Chou, J., additional, Koshkin, V.S., additional, Desai, A., additional, Feng, S., additional, Angelidakis, A., additional, Johnson, M.S., additional, Fong, L., additional, and Hope, T., additional

Published
2022
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17. 1229P A multicenter phase II study of sotigalimab (CD40 agonist) in combination with neoadjuvant chemoradiation for resectable esophageal and gastroesophageal junction (GEJ) cancers

Author

Ko, A.H., primary, Noel, M., additional, Chao, J., additional, Sohal, D., additional, Crow, M., additional, Oberstein, P.E., additional, Scott, A., additional, McRee, A., additional, Rocha Lima, C., additional, Fong, L., additional, Keenan, B., additional, Filbert, E., additional, Hsu, F.J., additional, and Shankaran, V., additional

Published
2022
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18. 1747P Impact of prior chemotherapy (Chemo) on pembrolizumab (Pembro) response in urothelial cancer (UC): Exploratory analysis of the phase III KEYNOTE-045 study

Author

De Wit, R., primary, Vaughn, D.J., additional, Fradet, Y., additional, Fong, L., additional, Vogelzang, N.J., additional, Climent Duran, M.A., additional, Necchi, A., additional, Petrylak, D.P., additional, Gerritsen, W.R., additional, Gurney, H.P., additional, Quinn, D.I., additional, Culine, S., additional, Sternberg, C.N., additional, Bajorin, D.F., additional, Choueiri, T.K., additional, Xu, J., additional, Imai, K., additional, Homet Moreno, B., additional, Bellmunt, J., additional, and Lee, J-L., additional

Published
2022
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19. 1751P Impact of squamous histology on clinical outcomes and molecular profiling in metastatic urothelial carcinoma (mUC) patients (pts) treated with newer therapies

Author

Deshmukh, P.S., primary, De Kouchkovsky, I., additional, Zhang, L., additional, Jindal, T., additional, Reyes, K., additional, Hernandez Romero, E., additional, Chan, E., additional, Desai, A., additional, Borno, H.T., additional, Kwon, D., additional, Wong, A., additional, Bose, R., additional, Aggarwal, R., additional, Porten, S., additional, Fong, L., additional, Small, E.J., additional, Chou, J., additional, Friedlander, T., additional, and Koshkin, V.S., additional

Published
2022
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23. Long-Term Outcomes of Childhood Left Ventricular Noncompaction Cardiomyopathy: Results From a National Population-Based Study

Author

Shi, William Y., Moreno-Betancur, Margarita, Nugent, Alan W., Cheung, Michael, Colan, Steven, Turner, Christian, Sholler, Gary F., Robertson, Terry, Justo, Robert, Bullock, Andrew, King, Ingrid, Davis, Andrew M., Daubeney, Piers E.F., Weintraub, Robert G., D’Orsogna, L., Bullock, A., Ramsey, J., Kothari, D., Robinson, T., Richardson, M., Wheaton, G., Radford, D., Whight, C., Justo, R., Ward, C., Sholler, G., Hawker, R., Cooper, S., Lau, K., Sherwood, M., Jones, O., Warner, G., Wilkinson, J.L., Goh, T., Edis, B., Penny, D., Lane, G., Menahem, S., Fong, L., Semsarian, C., Gailbraith, A., Jeremy, R., Fryda, R., Robinson, P., and Lee, L.

Published
2018
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28. Numerical optimization of microfluidic vortex shedding for genome editing T cells with Cas9

Author

Brandon J. Sytsma, Ryan S. Pawell, Adrian A. Lievano, Leah H. Wilson, Justin A. Jarrell, Giles T. S. Kirby, Katherine H.W.J. Lau, Fong L. Pan, Jarrell, Justin A, Sytsma, Brandon J, Wilson, Leah H, Pan, Fong L, Lau, Katherine HWJ, Kirby, Giles TS, Lievano, Adrian A, and Pawell, Ryan S

Subjects
Cell Survival, Transgene, Science, mRNA, T-Lymphocytes, Cell, Microfluidics, Gene Expression, Transfection, Article, Genome editing, Genes, Reporter, CRISPR-Associated Protein 9, medicine, Humans, Viability assay, Transgenes, Ribonucleoprotein, Gene Editing, Multidisciplinary, Chemistry, Cas9, Electroporation, Gene Transfer Techniques, Models, Theoretical, Cell biology, medicine.anatomical_structure, Hydrodynamics, Medicine, Immunotherapy, T cell receptor, CRISPR-Cas Systems, Intracellular, Microfluidic vortex shedding (µVS)
Abstract

Microfluidic vortex shedding (µVS) can rapidly deliver mRNA to T cells with high yield and minimal perturbation of the cell state. The mechanistic underpinning of µVS intracellular delivery remains undefined and µVS-Cas9 genome editing requires further studies. Herein, we evaluated a series of µVS devices containing splitter plates to attenuate vortex shedding and understand the contribution of computed force and frequency on efficiency and viability. We then selected a µVS design to knockout the expression of the endogenous T cell receptor in primary human T cells via delivery of Cas9 ribonucleoprotein (RNP) with and without brief exposure to an electric field (eµVS). µVS alone resulted in an equivalent yield of genome-edited T cells relative to electroporation with improved cell quality. A 1.8-fold increase in editing efficiency was demonstrated with eµVS with negligible impact on cell viability. Herein, we demonstrate efficient processing of 5 × 106 cells suspend in 100 µl of cGMP OptiMEM in under 5 s, with the capacity of a single device to process between 106 to 108 in 1 to 30 s. Cumulatively, these results demonstrate the rapid and robust utility of µVS and eµVS for genome editing human primary T cells with Cas9 RNPs.

Published
2021

34. Phase i study of ABBV-428, a mesothelin-CD40 bispecific, in patients with advanced solid tumors

Author

Luke, JJ, Barlesi, F, Chung, K, Tolcher, AW, Kelly, K, Hollebecque, A, Le Tourneau, C, Subbiah, V, Tsai, F, Kao, S, Cassier, PA, Khasraw, Mustafa, Kindler, HL, Fang, H, Fan, F, Allaire, K, Patel, M, Ye, S, Chao, DT, Henner, WR, Hayflick, JS, McDevitt, MA, Fong, L, Luke, JJ, Barlesi, F, Chung, K, Tolcher, AW, Kelly, K, Hollebecque, A, Le Tourneau, C, Subbiah, V, Tsai, F, Kao, S, Cassier, PA, Khasraw, Mustafa, Kindler, HL, Fang, H, Fan, F, Allaire, K, Patel, M, Ye, S, Chao, DT, Henner, WR, Hayflick, JS, McDevitt, MA, and Fong, L

Abstract

BackgroundCD40 agonist immunotherapy can potentially license antigen-presenting cells to promote antitumor T-cell activation and re-educate macrophages to destroy tumor stroma. Systemic administration of CD40 agonists has historically been associated with considerable toxicity, providing the rationale for development of tumor-targeted immunomodulators to improve clinical safety and efficacy. This phase I study assessed the safety, tolerability, preliminary antitumor activity, and preliminary biomarkers of ABBV-428, a first-in-class, mesothelin-targeted, bispecific antibody designed for tumor microenvironment-dependent CD40 activation with limited systemic toxicity.MethodsABBV-428 was administered intravenously every 2 weeks to patients with advanced solid tumors. An accelerated titration (starting at a 0.01 mg/kg dose) and a 3+3 dose escalation scheme were used, followed by recommended phase II dose cohort expansions in ovarian cancer and mesothelioma, tumor types associated with high mesothelin expression.ResultsFifty-nine patients were treated at doses between 0.01 and 3.6 mg/kg. The maximum tolerated dose was not reached, and 3.6 mg/kg was selected as the recommended phase II dose. Seven patients (12%) reported infusion-related reactions. Treatment-related grade ≥3 treatment-emergent adverse events were pericardial effusion, colitis, infusion-related reaction, and pleural effusion (n=1 each, 2%), with no cytokine release syndrome reported. The pharmacokinetic profile demonstrated roughly dose-proportional increases in exposure from 0.4 to 3.6 mg/kg. Best response was stable disease in 9/25 patients (36%) treated at the recommended phase II dose. CD40 receptor occupancy >90% was observed on peripheral B-cells starting from 0.8 mg/kg; however, no consistent changes from baseline in intratumoral C

Published
2021

41. Genome editing human primary T cells with microfluidic vortex shedding & CRISPR Cas9

Author

Ryan S. Pawell, Brandon J. Sytsma, Giles T. S. Kirby, Katherine H.W.J. Lau, Leah H. Wilson, Justin A. Jarrell, Adrian A. Lievano, and Fong L. Pan

Subjects
medicine.anatomical_structure, Genome editing, Cas9, Chemistry, Electroporation, Cell, medicine, CRISPR, Viability assay, Intracellular, Ribonucleoprotein, Cell biology
Abstract

Microfluidic vortex shedding (μVS) can rapidly deliver mRNA to T cells with high yield. The mechanistic underpinning of μVS intracellular delivery remains undefined and μVS-Cas9 genome editing requires further studies. Herein, we evaluated a series of μVS devices containing splitter plates to attenuate vortex shedding and understand the contribution of computed force and frequency on efficiency and viability. We then selected a μVS design to knockout the expression of the endogenous T cell receptor in primary human T cells via delivery of CRISPR-Cas9 ribonucleoprotein (RNP) with and without brief exposure to an electric field (eμVS). μVS alone resulted in an equivalent yield of genome-edited T cells relative to electroporation with improved cell quality. A 1.8-fold increase in editing efficiency was demonstrated with eμVS with negligible impact on cell viability. Cumulatively, these results demonstrate the utility of μVS and eμVS for genome editing human primary T cells with Cas9 RNPs.

Published
2020
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42. Numerical optimization of microfluidic vortex shedding for genome editing human primary T cells using machine learning

Author

Jarrell, Justin A., Lievano, Adrian A., Pan, Fong L., Lau, Katherine H.W.J., Kirby, Giles T. S., and Pawell, Ryan S.

Abstract

Microfluidic vortex shedding ( μVS ) can rapidly deliver mRNA to human T cells with high yield and minimal perturbation. However, the mechanistic underpinning of μVS as an intracellular delivery method remains undefined with no optimization framework. Herein, we evaluated a series of μVS devices containing various splitter plates to attenuate vortex shedding and understand the contribution of force and frequency on expression efficiency and cell viability. We selected and applied a μVS design to knockout the expression of the endogenous T cell receptor of T cells via delivery of Cas9-RNP. 255 μVS samples were characterized across more than 150 parameters and machine learning was used to identify the 11 most predictive parameters for expression efficiency and cell viability. These results demonstrate the utility of μVS for genome editing of human T cells with CRISPR-Cas9 and provide a robust framework to optimize μVS for various constructs, cell types and protocols.

Published
2020
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43. Adenosine 2A receptor blockade as an immunotherapy for treatment-refractory renal cell cancer.

Author

Munneke B., Brody J.D., Hernandez-Aya L., Bonomi P., Goldman J.W., Berim L., Renouf D.J., Goodwin R.A., Ho P.Y., Hsieh J., McCaffery I., Kwei L., Willingham S.B., Miller R.A., Fong L., Hotson A., Powderly J.D., Sznol M., Heist R.S., Choueiri T.K., George S., Hughes B.G.M., Hellmann M.D., Shepard D.R., Rini B.I., Kummar S., Weise A.M., Riese M.J., Markman B., Emens L.A., Mahadevan D., Luke J.J., Laport G., Munneke B., Brody J.D., Hernandez-Aya L., Bonomi P., Goldman J.W., Berim L., Renouf D.J., Goodwin R.A., Ho P.Y., Hsieh J., McCaffery I., Kwei L., Willingham S.B., Miller R.A., Fong L., Hotson A., Powderly J.D., Sznol M., Heist R.S., Choueiri T.K., George S., Hughes B.G.M., Hellmann M.D., Shepard D.R., Rini B.I., Kummar S., Weise A.M., Riese M.J., Markman B., Emens L.A., Mahadevan D., Luke J.J., and Laport G.

Abstract

Adenosine mediates immunosuppression within the tumor microenvironment through triggering adenosine 2A receptors (A2AR) on immune cells. To determine whether this pathway could be targeted as an immunotherapy, we performed a phase I clinical trial with a small-molecule A2AR antagonist. We find that this molecule can safely block adenosine signaling in vivo. In a cohort of 68 patients with renal cell cancer (RCC), we also observe clinical responses alone and in combination with an anti-PD-L1 antibody, including subjects who had progressed on PD-1/PD-L1 inhibitors. Durable clinical benefit is associated with increased recruitment of CD8 + T cells into the tumor. Treatment can also broaden the circulating T-cell repertoire. Clinical responses are associated with an adenosine-regulated gene-expression signature in pretreatment tumor biopsies. A2AR signaling, therefore, represents a targetable immune checkpoint distinct from PD-1/PD-L1 that restricts antitumor immunity. SIGNIFICANCE: This first-in-human study of an A2AR antagonist for cancer treatment establishes the safety and feasibility of targeting this pathway by demonstrating antitumor activity with single-agent and anti-PD-L1 combination therapy in patients with refractory RCC. Responding patients possess an adenosine-regulated gene-expression signature in pretreatment tumor biopsies.Copyright © 2019 American Association for Cancer Research.

Published
2020

44. The DNA methylation landscape of advanced prostate cancer

Author

Zhao, SG, Chen, WS, Li, H, Foye, A, Zhang, M, Sjostrom, M, Aggarwal, R, Playdle, D, Liao, A, Alumkal, JJ, Das, R, Chou, J, Hua, JT, Barnard, TJ, Bailey, AM, Chow, ED, Perry, MD, Dang, HX, Yang, R, Moussavi-Baygi, R, Zhang, L, Alshalalfa, M, Chang, SL, Houlahan, KE, Shiah, Y-J, Beer, TM, Thomas, G, Chi, KN, Gleave, M, Zoubeidi, A, Reiter, RE, Rettig, MB, Witte, O, Kim, MY, Fong, L, Spratt, DE, Morgan, TM, Bose, R, Huang, FW, Chesner, L, Shenoy, T, Goodarzi, H, Asangani, IA, Sandhu, S, Lang, JM, Mahajan, NP, Lara, PN, Evans, CP, Febbo, P, Batzoglou, S, Knudsen, KE, He, HH, Huang, J, Zwart, W, Costello, JF, Luo, J, Tomlins, SA, Wyatt, AW, Dehm, SM, Ashworth, A, Gilbert, LA, Boutros, PC, Farh, K, Chinnaiyan, AM, Maher, CA, Small, EJ, Quigley, DA, Feng, FY, Zhao, SG, Chen, WS, Li, H, Foye, A, Zhang, M, Sjostrom, M, Aggarwal, R, Playdle, D, Liao, A, Alumkal, JJ, Das, R, Chou, J, Hua, JT, Barnard, TJ, Bailey, AM, Chow, ED, Perry, MD, Dang, HX, Yang, R, Moussavi-Baygi, R, Zhang, L, Alshalalfa, M, Chang, SL, Houlahan, KE, Shiah, Y-J, Beer, TM, Thomas, G, Chi, KN, Gleave, M, Zoubeidi, A, Reiter, RE, Rettig, MB, Witte, O, Kim, MY, Fong, L, Spratt, DE, Morgan, TM, Bose, R, Huang, FW, Chesner, L, Shenoy, T, Goodarzi, H, Asangani, IA, Sandhu, S, Lang, JM, Mahajan, NP, Lara, PN, Evans, CP, Febbo, P, Batzoglou, S, Knudsen, KE, He, HH, Huang, J, Zwart, W, Costello, JF, Luo, J, Tomlins, SA, Wyatt, AW, Dehm, SM, Ashworth, A, Gilbert, LA, Boutros, PC, Farh, K, Chinnaiyan, AM, Maher, CA, Small, EJ, Quigley, DA, and Feng, FY

Abstract

Although DNA methylation is a key regulator of gene expression, the comprehensive methylation landscape of metastatic cancer has never been defined. Through whole-genome bisulfite sequencing paired with deep whole-genome and transcriptome sequencing of 100 castration-resistant prostate metastases, we discovered alterations affecting driver genes that were detectable only with integrated whole-genome approaches. Notably, we observed that 22% of tumors exhibited a novel epigenomic subtype associated with hypermethylation and somatic mutations in TET2, DNMT3B, IDH1 and BRAF. We also identified intergenic regions where methylation is associated with RNA expression of the oncogenic driver genes AR, MYC and ERG. Finally, we showed that differential methylation during progression preferentially occurs at somatic mutational hotspots and putative regulatory regions. This study is a large integrated study of whole-genome, whole-methylome and whole-transcriptome sequencing in metastatic cancer that provides a comprehensive overview of the important regulatory role of methylation in metastatic castration-resistant prostate cancer.

Published
2020

50. Prostate Cancer Immunotherapy – Strategy with a Synthetic GnRH Based Vaccine Candidate

Author

Junco, J.A., primary, Fuentes, F., additional, Basulto, R., additional, Bover, E., additional, Castro, M.D., additional, Pimentel, E., additional, Reyes, O., additional, Bringas, R., additional, Calzada, L., additional, Lpez, Y., additional, Arteaga, N., additional, Rodrguez, A., additional, Garay, H., additional, Rodrguez, R., additional, Gonzlez-Quiza, L., additional, Fong, L., additional, and Guill, G.E., additional

Published
2012
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