Your search keyword '"Ranjita Sengupta"' showing total 5 results

1. P95 First two US patients with lupus nephritis (LN) treated with anti-CD19 chimeric antigen receptor (CAR) T-cell therapy: preliminary results from the KYSA-1 phase 1, multicenter study of KYV-101

Author

Richard Furie, James Chung, Francis Kim, Amber Podoll, Justin Chou, Ranjita Sengupta, Ruthee Bayer, and Jonathan Gutman

Subjects

Immunologic diseases. Allergy, RC581-607

Published

2024

2. Allogeneic CD20‐targeted γδ T cells exhibit innate and adaptive antitumor activities in preclinical B‐cell lymphoma models

Author

Kevin P Nishimoto, Taylor Barca, Aruna Azameera, Amani Makkouk, Jason M Romero, Lu Bai, Mary M Brodey, Jackie Kennedy‐Wilde, Hui Shao, Stephanie Papaioannou, Amy Doan, Cynthia Masri, Ngoc T Hoang, Hayden Tessman, Vidhya Dhevi Ramanathan, Ana Giner‐Rubio, Frank Delfino, Kriti Sharma, Kevin Bray, Matthew Hoopes, Daulet Satpayev, Ranjita Sengupta, Marissa Herrman, Stewart E Abbot, Blake T Aftab, Zili An, Swapna Panuganti, and Sandra M Hayes

Subjects

adoptive cell therapy, B‐cell lymphoma, CD20, chimeric antigen receptor, γδ T cells, Immunologic diseases. Allergy, RC581-607

Abstract

Abstract Objectives Autologous chimeric antigen receptor (CAR) αβ T‐cell therapies have demonstrated remarkable antitumor efficacy in patients with haematological malignancies; however, not all eligible cancer patients receive clinical benefit. Emerging strategies to improve patient access and clinical responses include using premanufactured products from healthy donors and alternative cytotoxic effectors possessing intrinsic tumoricidal activity as sources of CAR cell therapies. γδ T cells, which combine innate and adaptive mechanisms to recognise and kill malignant cells, are an attractive candidate platform for allogeneic CAR T‐cell therapy. Here, we evaluated the manufacturability and functionality of allogeneic peripheral blood‐derived CAR+ Vδ1 γδ T cells expressing a second‐generation CAR targeting the B‐cell‐restricted CD20 antigen. Methods Donor‐derived Vδ1 γδ T cells from peripheral blood were ex vivo‐activated, expanded and engineered to express a novel anti‐CD20 CAR. In vitro and in vivo assays were used to evaluate CAR‐dependent and CAR‐independent antitumor activities of CD20 CAR+ Vδ1 γδ T cells against B‐cell tumors. Results Anti‐CD20 CAR+ Vδ1 γδ T cells exhibited innate and adaptive antitumor activities, such as in vitro tumor cell killing and proinflammatory cytokine production, in addition to in vivo tumor growth inhibition of B‐cell lymphoma xenografts in immunodeficient mice. Furthermore, CD20 CAR+ Vδ1 γδ T cells did not induce xenogeneic graft‐versus‐host disease in immunodeficient mice. Conclusion These preclinical data support the clinical evaluation of ADI‐001, an allogeneic CD20 CAR+ Vδ1 γδ T cell, and a phase 1 study has been initiated in patients with B‐cell malignancies (NCT04735471).

Published

2022

3. Viral Cre-LoxP tools aid genome engineering in mammalian cells

Author

Ranjita Sengupta, Amy Mendenhall, Nandita Sarkar, Chandreyee Mukherjee, Amirali Afshari, Joseph Huang, and Biao Lu

Subjects

Cre-LoxP, Cre recombinase, Lentiviral vector, AAV vector, Genome editing, Talen, Biology (General), QH301-705.5

Abstract

Abstract Background Targeted nucleases have transformed genome editing technology, providing more efficient methods to make targeted changes in mammalian genome. In parallel, there is an increasing demand of Cre-LoxP technology for complex genome manipulation such as large deletion, addition, gene fusion and conditional removal of gene sequences at the target site. However, an efficient and easy-to-use Cre-recombinase delivery system remains lacking. Results We designed and constructed two sets of expression vectors for Cre-recombinase using two highly efficient viral systems, the integrative lentivirus and non-integrative adeno associated virus. We demonstrate the effectiveness of those methods in Cre-delivery into stably-engineered HEK293 cells harboring LoxP-floxed red fluorescent protein (RFP) and puromycin (Puro) resistant reporters. The delivered Cre recombinase effectively excised the floxed RFP-Puro either directly or conditionally, therefore validating the function of these molecular tools. Given the convenient options of two selections markers, these viral-based systems offer a robust and easy-to-use tool for advanced genome editing, expanding complicated genome engineering to a variety of cell types and conditions. Conclusions We have developed and functionally validated two viral-based Cre-recombinase delivery systems for efficient genome manipulation in various mammalian cells. The ease of gene delivery with the built-in reporters and inducible element enables live cell monitoring, drug selection and temporal knockout, broadening applications of genome editing.

Published

2017

4. Replication Study: Melanoma exosomes educate bone marrow progenitor cells toward a pro-metastatic phenotype through MET

Author

Jeewon Kim, Amirali Afshari, Ranjita Sengupta, Vittorio Sebastiano, Archana Gupta, Young H Kim, and Reproducibility Project: Cancer Biology

Subjects

Reproducibility Project: Cancer Biology, replication, metascience, reproducibility, exosomes, Met, Medicine, Science, Biology (General), QH301-705.5

Abstract

As part of the Reproducibility Project: Cancer Biology we published a Registered Report (Lesnik et al., 2016) that described how we intended to replicate selected experiments from the paper ‘Melanoma exosomes educate bone marrow progenitor cells toward a pro-metastatic phenotype through MET’ (Peinado et al., 2012). Here we report the results. We regenerated tumor cells stably expressing a short hairpin to reduce Met expression (shMet) using the same highly metastatic mouse melanoma cell line (B16-F10) as the original study, which efficiently downregulated Met in B16F10 cells similar to the original study (Supplementary Figure 5A; Peinado et al., 2012). Exosomes from control cells expressed Met, which was reduced in exosomes from shMet cells; however, we were unable to reliably detect phosphorylated Met in exosomes. We tested the effect of exosome-dependent Met signaling on primary tumor growth and metastasis. Similar to the results in the original study, we did not find a statistically significant change in primary tumor growth. Measuring lung and femur metastases, we found a small increase in metastatic burden with exosomes from control cells that was diminished when Met expression was reduced; however, while the effects were in the same direction as the original study (Figure 4E; Peinado et al., 2012), they were not statistically significant. Differences between the original study and this replication attempt, such as level of knockdown efficiency, cell line genetic drift, sample sizes, study endpoints, and variability of observed metastatic burden, are factors that might have influenced the outcomes. Finally, we report meta-analyses for each result.

Published

2018

5. The Role of Cell Surface Architecture of Lactobacilli in Host-Microbe Interactions in the Gastrointestinal Tract

Author

Ranjita Sengupta, Eric Altermann, Rachel C. Anderson, Warren C. McNabb, Paul J. Moughan, and Nicole C. Roy

Subjects

Pathology, RB1-214

Abstract

Lactobacillus species can exert health promoting effects in the gastrointestinal tract (GIT) through many mechanisms, which include pathogen inhibition, maintenance of microbial balance, immunomodulation, and enhancement of the epithelial barrier function. Different species of the genus Lactobacillus can evoke different responses in the host, and not all strains of the same species can be considered beneficial. Strain variations may be related to diversity of the cell surface architecture of lactobacilli and the bacteria's ability to express certain surface components or secrete specific compounds in response to the host environment. Lactobacilli are known to modify their surface structures in response to stress factors such as bile and low pH, and these adaptations may help their survival in the face of harsh environmental conditions encountered in the GIT. In recent years, multiple cell surface-associated molecules have been implicated in the adherence of lactobacilli to the GIT lining, immunomodulation, and protective effects on intestinal epithelial barrier function. Identification of the relevant bacterial ligands and their host receptors is imperative for a better understanding of the mechanisms through which lactobacilli exert their beneficial effects on human health.

Published

2013