Your search keyword '"Krenciute, Giedre"' showing total 20 results

1. cBAF complex components and MYC cooperate early in CD8+T cell fate

Author

Guo, Ao, Huang, Hongling, Zhu, Zhexin, Chen, Mark J., Shi, Hao, Yuan, Sujing, Sharma, Piyush, Connelly, Jon P., Liedmann, Swantje, Dhungana, Yogesh, Li, Zhenrui, Haydar, Dalia, Yang, Mao, Beere, Helen, Yustein, Jason T., DeRenzo, Christopher, Pruett-Miller, Shondra M., Crawford, Jeremy Chase, Krenciute, Giedre, Roberts, Charles W. M., Chi, Hongbo, and Green, Douglas R.

Abstract

The identification of mechanisms to promote memory T (Tmem) cells has important implications for vaccination and anti-cancer immunotherapy1–4. Using a CRISPR-based screen for negative regulators of Tmemcell generation in vivo5, here we identify multiple components of the mammalian canonical BRG1/BRM-associated factor (cBAF)6,7. Several components of the cBAF complex are essential for the differentiation of activated CD8+T cells into T effector (Teff) cells, and their loss promotes Tmemcell formation in vivo. During the first division of activated CD8+T cells, cBAF and MYC8frequently co-assort asymmetrically to the two daughter cells. Daughter cells with high MYC and high cBAF display a cell fate trajectory towards Teffcells, whereas those with low MYC and low cBAF preferentially differentiate towards Tmemcells. The cBAF complex and MYC physically interact to establish the chromatin landscape in activated CD8+T cells. Treatment of naive CD8+T cells with a putative cBAF inhibitor during the first 48 h of activation, before the generation of chimeric antigen receptor T (CAR-T) cells, markedly improves efficacy in a mouse solid tumour model. Our results establish cBAF as a negative determinant of Tmemcell fate and suggest that manipulation of cBAF early in T cell differentiation can improve cancer immunotherapy.

Published

2024

2. Overcoming on-target, off-tumour toxicity of CAR T cell therapy for solid tumours

Author

Flugel, Christian L., Majzner, Robbie G., Krenciute, Giedre, Dotti, Gianpietro, Riddell, Stanley R., Wagner, Dimitrios L., and Abou-el-Enein, Mohamed

Abstract

Therapies with genetically modified T cells that express chimeric antigen receptors (CARs) specific for CD19 or B cell maturation antigen (BCMA) are approved to treat certain B cell malignancies. However, translating these successes into treatments for patients with solid tumours presents various challenges, including the risk of clinically serious on-target, off-tumour toxicity (OTOT) owing to CAR T cell-mediated cytotoxicity against non-malignant tissues expressing the target antigen. Indeed, severe OTOT has been observed in various CAR T cell clinical trials involving patients with solid tumours, highlighting the importance of establishing strategies to predict, mitigate and control the onset of this effect. In this Review, we summarize current clinical evidence of OTOT with CAR T cells in the treatment of solid tumours and discuss the utility of preclinical mouse models in predicting clinical OTOT. We then describe novel strategies being developed to improve the specificity of CAR T cells in solid tumours, particularly the role of affinity tuning of target binders, logic circuits and synthetic biology. Furthermore, we highlight control strategies that can be used to mitigate clinical OTOT following cell infusion such as regulating or eliminating CAR T cell activity, exogenous control of CAR expression, and local administration of CAR T cells.

Published

2023

3. Engineering naturally occurring CD7− T cells for the immunotherapy of hematological malignancies

Author

Freiwan, Abdullah, Zoine, Jaquelyn T., Crawford, Jeremy Chase, Vaidya, Abishek, Schattgen, Stefan A., Myers, Jacquelyn A., Patil, Sagar L., Khanlari, Mahsa, Inaba, Hiroto, Klco, Jeffery M., Mullighan, Charles G., Krenciute, Giedre, Chockley, Peter J., Naik, Swati, Langfitt, Deanna M., Mamonkin, Maksim, Obeng, Esther A., Thomas, Paul G., Gottschalk, Stephen, and Velasquez, M. Paulina

Abstract

Chimeric antigen receptor (CAR) T-cell therapy targeting T-cell acute lymphoblastic leukemia (T-ALL) faces limitations such as antigen selection and limited T-cell persistence. CD7 is an attractive antigen for targeting T-ALL, but overlapping expression on healthy T cells leads to fratricide of CD7-CAR T cells, requiring additional genetic modification. We took advantage of naturally occurring CD7− T cells to generate CD7-CAR (CD7-CARCD7−) T cells. CD7-CARCD7− T cells exhibited a predominantly CD4+ memory phenotype and had significant antitumor activity upon chronic antigen exposure in vitro and in xenograft mouse models. Based on these encouraging results, we next explored the utility of CD7− T cells for the immunotherapy of CD19+ hematological malignancies. Direct comparison of nonselected (bulk) CD19-CAR and CD19-CARCD7− T cells revealed that CD19-CARCD7− T cells had enhanced antitumor activity compared with their bulk counterparts in vitro and in vivo. Lastly, to gain insight into the behavior of CD19-CAR T cells with low levels of CD7 gene expression (CD7lo) in humans, we mined single-cell gene and T-cell receptor (TCR) expression data sets from our institutional CD19-CAR T-cell clinical study. CD19-CARCD7lo T cells were present in the initial CD19-CAR T-cell product and could be detected postinfusion. Intriguingly, the only functional CD4+ CD19-CAR T-cell cluster observed postinfusion exhibited CD7lo expression. Additionally, samples from patients responsive to therapy had a higher proportion of CD7lo T cells than nonresponders (NCT03573700). Thus, CARCD7− T cells have favorable biological characteristics and may present a promising T-cell subset for adoptive cell therapy of T-ALL and other hematological malignancies.

Published

2022

4. Engineering naturally occurring CD7−T cells for the immunotherapy of hematological malignancies

Author

Freiwan, Abdullah, Zoine, Jaquelyn T., Crawford, Jeremy Chase, Vaidya, Abishek, Schattgen, Stefan A., Myers, Jacquelyn A., Patil, Sagar L., Khanlari, Mahsa, Inaba, Hiroto, Klco, Jeffery M., Mullighan, Charles G., Krenciute, Giedre, Chockley, Peter J., Naik, Swati, Langfitt, Deanna M., Mamonkin, Maksim, Obeng, Esther A., Thomas, Paul G., Gottschalk, Stephen, and Velasquez, M. Paulina

Abstract

•Naturally occurring CD7 negative T cells are functional effector T cells that can be used for chimeric antigen receptor therapy.•CD7 negative T cells expressing a CD7-CAR have robust antitumor activity and bypass fratricide.

Published

2022

5. RASA2ablation in T cells boosts antigen sensitivity and long-term function

Author

Carnevale, Julia, Shifrut, Eric, Kale, Nupura, Nyberg, William A., Blaeschke, Franziska, Chen, Yan Yi, Li, Zhongmei, Bapat, Sagar P., Diolaiti, Morgan E., O’Leary, Patrick, Vedova, Shane, Belk, Julia, Daniel, Bence, Roth, Theodore L., Bachl, Stefanie, Anido, Alejandro Allo, Prinzing, Brooke, Ibañez-Vega, Jorge, Lange, Shannon, Haydar, Dalia, Luetke-Eversloh, Marie, Born-Bony, Maelys, Hegde, Bindu, Kogan, Scott, Feuchtinger, Tobias, Okada, Hideho, Satpathy, Ansuman T., Shannon, Kevin, Gottschalk, Stephen, Eyquem, Justin, Krenciute, Giedre, Ashworth, Alan, and Marson, Alexander

Abstract

The efficacy of adoptive T cell therapies for cancer treatment can be limited by suppressive signals from both extrinsic factors and intrinsic inhibitory checkpoints1,2. Targeted gene editing has the potential to overcome these limitations and enhance T cell therapeutic function3–10. Here we performed multiple genome-wide CRISPR knock-out screens under different immunosuppressive conditions to identify genes that can be targeted to prevent T cell dysfunction. These screens converged on RASA2, a RAS GTPase-activating protein (RasGAP) that we identify as a signalling checkpoint in human T cells, which is downregulated upon acute T cell receptor stimulation and can increase gradually with chronic antigen exposure. RASA2 ablation enhanced MAPK signalling and chimeric antigen receptor (CAR) T cell cytolytic activity in response to target antigen. Repeated tumour antigen stimulations in vitro revealed that RASA2-deficient T cells show increased activation, cytokine production and metabolic activity compared with control cells, and show a marked advantage in persistent cancer cell killing. RASA2-knockout CAR T cells had a competitive fitness advantage over control cells in the bone marrow in a mouse model of leukaemia. Ablation of RASA2 in multiple preclinical models of T cell receptor and CAR T cell therapies prolonged survival in mice xenografted with either liquid or solid tumours. Together, our findings highlight RASA2 as a promising target to enhance both persistence and effector function in T cell therapies for cancer treatment.

Published

2022

6. Peptide-scFv antigen recognition domains effectively confer CAR T cell multiantigen specificity

Author

Zoine, Jaquelyn T., Immadisetty, Kalyan, Ibanez-Vega, Jorge, Moore, Sarah E., Nevitt, Chris, Thanekar, Unmesha, Tian, Liqing, Karouni, Abbas, Chockley, Peter J., Arthur, Bright, Sheppard, Heather, Klco, Jeffery M., Langfitt, Deanna M., Krenciute, Giedre, Gottschalk, Stephen, Babu, M. Madan, and Velasquez, M. Paulina

Abstract

The emergence of immune escape is a significant roadblock to developing effective chimeric antigen receptor (CAR) T cell therapies against hematological malignancies, including acute myeloid leukemia (AML). Here, we demonstrate feasibility of targeting two antigens simultaneously by combining a GRP78-specific peptide antigen recognition domain with a CD123-specific scFv to generate a peptide-scFv bispecific antigen recognition domain (78.123). To achieve this, we test linkers with varying length and flexibility and perform immunophenotypic and functional characterization. We demonstrate that bispecific CAR T cells successfully recognize and kill tumor cells that express GRP78, CD123, or both antigens and have improved antitumor activity compared to their monospecific counterparts when both antigens are expressed. Protein structure prediction suggests that linker length and compactness influence the functionality of the generated bispecific CARs. Thus, we present a bispecific CAR design strategy to prevent immune escape in AML that can be extended to other peptide-scFv combinations.

Published

2024

7. Protocol for live-cell imaging of immune synapse formation and activation of CAR T cells against cancer cells

Author

Ibanez, Jorge, Hebbar, Nikhil, Thanekar, Unmesha, Yi, Zhongzhen, Houke, Haley, Ward, Meghan, Nevitt, Chris, Tian, Liqing, Mack, Stephen C., Sheppard, Heather, Chiang, Jason, Velasquez, M. Paulina, and Krenciute, Giedre

Abstract

Immune synapse (IS) formation determines T cell antitumor activity. Here, we present a protocol for characterizing the IS formation between chimeric antigen receptor (CAR) T cells and tumor cells by measuring the IS size and calcium flux by live-cell imaging. We describe steps for CAR T cell manufacturing, sample preparation, image acquisition, and data analysis.

Published

2024

8. GRP78-CAR T cell effector function against solid and brain tumors is controlled by GRP78 expression on T cells

Author

Ibanez, Jorge, Hebbar, Nikhil, Thanekar, Unmesha, Yi, Zhongzhen, Houke, Haley, Ward, Meghan, Nevitt, Chris, Tian, Liqing, Mack, Stephen C., Sheppard, Heather, Chiang, Jason, Velasquez, M. Paulina, and Krenciute, Giedre

Abstract

Lack of targetable antigens is a key limitation for developing successful T cell-based immunotherapies. Members of the unfolded protein response (UPR) represent ideal immunotherapy targets because the UPR regulates the ability of cancer cells to resist cell death, sustain proliferation, and metastasize. Glucose-regulated protein 78 (GRP78) is a key UPR regulator that is overexpressed and translocated to the cell surface of a wide variety of cancers in response to elevated endoplasmic reticulum (ER) stress. We show that GRP78 is highly expressed on the cell surface of multiple solid and brain tumors, making cell surface GRP78 a promising chimeric antigen receptor (CAR) T cell target. We demonstrate that GRP78-CAR T cells can recognize and kill GRP78+ brain and solid tumors in vitroand in vivo. Additionally, our findings demonstrate that GRP78 is upregulated on CAR T cells upon T cell activation; however, this expression is tumor-cell-line specific and results in heterogeneous GRP78-CAR T cell therapeutic response.

Published

2023

9. What is the Optimal Design-Build-Test Cycle for Clinically Relevant Synthetic CAR T Cell Therapies?

Author

Chen, Yvonne Y., Lim, Wendell, Levings, Megan, Blazar, Bruce, Krenciute, Giedre, Wong, Wilson, and Lehner, Manfred

Published

2020

10. Adoptive Transfer of IL13Rα2-Specific Chimeric Antigen Receptor T Cells Creates a Pro-inflammatory Environment in Glioblastoma

Author

Pituch, Katarzyna C., Miska, Jason, Krenciute, Giedre, Panek, Wojciech K., Li, Gina, Rodriguez-Cruz, Tania, Wu, Meijing, Han, Yu, Lesniak, Maciej S., Gottschalk, Stephen, and Balyasnikova, Irina V.

Abstract

In order to fully harness the potential of immunotherapy with chimeric antigen receptor (CAR)-modified T cells, pre-clinical studies must be conducted in immunocompetent animal models that closely mimic the immunosuppressive malignant glioma (MG) microenvironment. Thus, the goal of this project was to study the in vivofate of T cells expressing CARs specific for the MG antigen IL13Rα2 (IL13Rα2-CARs) in immunocompetent MG models. Murine T cells expressing IL13Rα2-CARs with a CD28.ζ (IL13Rα2-CAR.CD28.ζ) or truncated signaling domain (IL13Rα2-CAR.Δ) were generated by retroviral transduction, and their effector function was evaluated both in vitroand in vivo. IL13Rα2-CAR.CD28.ζ T cells’ specificity toward IL13Rα2 was confirmed through cytokine production and cytolytic activity. In vivo, a single intratumoral injection of IL13Rα2-CAR.CD28.ζ T cells significantly extended the survival of IL13Rα2-expressing GL261 and SMA560 glioma-bearing mice; long-term survivors were resistant to re-challenge with IL13Rα2-negative and IL13Rα2-positive tumors. IL13Rα2-CAR.CD28.ζ T cells proliferated, produced cytokines (IFNγ, TNF-α), and promoted a phenotypically pro-inflammatory glioma microenvironment by inducing a significant increase in the number of CD4+and CD8+T cells and CD8α+dendritic cells and a decrease in Ly6G+myeloid-derived suppressor cells (MDSCs). Our data underline the significance of CAR T cell studies in immunocompetent hosts and further validate IL13Rα2-CAR T cells as an efficacious therapeutic strategy for MG.

Published

2018

11. Structural Changes in Peptide-Scfv Bispecific Cars Impact T Cell Effector Function Against Acute Myeloid Leukemia

Author

Zoine, Jaquelyn T., Moore, Sarah E., Immadisetty, Kalyan, Akel, Shams, Langfitt, Deanna M, Ibanez-Vega, Jorge, Talbot, Lindsay, DeRenzo, Chris, Krenciute, Giedre, Babu, M. Madan, and Velasquez, Mireya Paulina

Published

2022

12. Establishing Immunocompetent Leukemia Models to Investigate the Impact of CAR T Cells on the Immune Microenvironment and Bone Marrow Niche

Author

Moore, Sarah E., Zoine, Jaquelyn T., Crawford, Jeremy Chase, Langfitt, Deanna, Barajas, Juan M., Abdelhamed, Sherif, Iacobucci, Ilaria, Haydar, Dalia, Krenciute, Giedre, Mullighan, Charles G., Klco, Jeffery M., Gottschalk, Stephen, Thomas, Paul G., and Velasquez, Mireya Paulina

Published

2022

13. Structural Changes in Peptide-Scfv Bispecific Cars Impact T Cell Effector Function Against Acute Myeloid Leukemia

Author

Zoine, Jaquelyn T., Moore, Sarah E., Immadisetty, Kalyan, Akel, Shams, Langfitt, Deanna M, Ibanez-Vega, Jorge, Talbot, Lindsay, DeRenzo, Chris, Krenciute, Giedre, Babu, M. Madan, and Velasquez, Mireya Paulina

Published

2022

14. Establishing Immunocompetent Leukemia Models to Investigate the Impact of CAR T Cells on the Immune Microenvironment and Bone Marrow Niche

Author

Moore, Sarah E., Zoine, Jaquelyn T., Crawford, Jeremy Chase, Langfitt, Deanna, Barajas, Juan M., Abdelhamed, Sherif, Iacobucci, Ilaria, Haydar, Dalia, Krenciute, Giedre, Mullighan, Charles G., Klco, Jeffery M., Gottschalk, Stephen, Thomas, Paul G., and Velasquez, Mireya Paulina

Published

2022

15. Tonic 4-1BB Costimulation in Chimeric Antigen Receptors Impedes T Cell Survival and Is Vector-Dependent

Author

Gomes-Silva, Diogo, Mukherjee, Malini, Srinivasan, Madhuwanti, Krenciute, Giedre, Dakhova, Olga, Zheng, Yueting, Cabral, Joaquim M.S., Rooney, Cliona M., Orange, Jordan S., Brenner, Malcolm K., and Mamonkin, Maksim

Abstract

Antigen-independent tonic signaling by chimeric antigen receptors (CARs) can increase differentiation and exhaustion of T cells, limiting their potency. Incorporating 4-1BB costimulation in CARs may enable T cells to resist this functional exhaustion; however, the potential ramifications of tonic 4-1BB signaling in CAR T cells remain unclear. Here, we found that tonic CAR-derived 4-1BB signaling can produce toxicity in T cells via continuous TRAF2-dependent activation of the nuclear factor κB (NF-κB) pathway and augmented FAS-dependent cell death. This mechanism was amplified in a non-self-inactivating gammaretroviral vector through positive feedback on the long terminal repeat (LTR) promoter, further enhancing CAR expression and tonic signaling. Attenuating CAR expression by substitution with a self-inactivating lentiviral vector minimized tonic signaling and improved T cell expansion and anti-tumor function. These studies illuminate the interaction between tonic CAR signaling and the chosen expression platform and identify inhibitory properties of the 4-1BB costimulatory domain that have direct implications for rational CAR design.

Published

2017

16. Steering CAR T cell epigenetic programs by tweaking manufacturing protocol

Author

Dukes, Meghan W. and Krenciute, Giedre

Abstract

CAR T cell persistence remains a significant roadblock to effective clinical translation of CAR T cells for solid and brain tumors. Jung et al.1demonstrate enrichment of resident memory phenotypes through simple changes to the CAR T cell manufacturing process.

Published

2023

17. Characterization and Functional Analysis of scFv-based Chimeric Antigen Receptors to Redirect T Cells to IL13Rα2-positive Glioma

Author

Krenciute, Giedre, Krebs, Simone, Torres, David, Wu, Meng-Fen, Liu, Hao, Dotti, Gianpietro, Li, Xiao-Nan, Lesniak, Maciej S, Balyasnikova, Irina V, and Gottschalk, Stephen

Abstract

Immunotherapy with T cells expressing chimeric antigen receptors (CARs) is an attractive approach to improve outcomes for patients with glioblastoma (GBM). IL13Rα2 is expressed at a high frequency in GBM but not in normal brain, making it a promising CAR T-cell therapy target. IL13Rα2-specific CARs generated up to date contain mutated forms of IL13 as an antigen-binding domain. While these CARs target IL13Rα2, they also recognize IL13Rα1, which is broadly expressed. To overcome this limitation, we constructed a panel of IL13Rα2-specific CARs that contain the IL13Rα2-specific single-chain variable fragment (scFv) 47 as an antigen binding domain, short or long spacer regions, a transmembrane domain, and endodomains derived from costimulatory molecules and CD3.ζ (IL13Rα2-CARs). IL13Rα2-CAR T cells recognized IL13Rα2-positive target cells in coculture and cytotoxicity assays with no cross-reactivity to IL13Rα1. However, only IL13Rα2-CAR T cells with a short spacer region produced IL2 in an antigen-dependent fashion. In vivo, T cells expressing IL13Rα2-CARs with short spacer regions and CD28.ζ, 41BB.ζ, and CD28.OX40.ζ endodomains had potent anti-glioma activity conferring a significant survival advantage in comparison to mice that received control T cells. Thus, IL13Rα2-CAR T cells hold the promise to improve current IL13Rα2-targeted immunotherapy approaches for GBM and other IL13Rα2-positive malignancies.

Published

2016

18. Deleting DNMT3A in CAR T cells prevents exhaustion and enhances antitumor activity

Author

Prinzing, Brooke, Zebley, Caitlin C., Petersen, Christopher T., Fan, Yiping, Anido, Alejandro Allo, Yi, Zhongzhen, Nguyen, Phuong, Houke, Haley, Bell, Matthew, Haydar, Dalia, Brown, Charmaine, Boi, Shannon K., Alli, Shanta, Crawford, Jeremy Chase, Riberdy, Janice M., Park, Jeoungeun J., Zhou, Sheng, Velasquez, Mireya Paulina, DeRenzo, Chris, Lazzarotto, Cicera R., Tsai, Shengdar Q., Vogel, Peter, Pruett-Miller, Shondra M., Langfitt, Deanna M., Gottschalk, Stephen, Youngblood, Ben, and Krenciute, Giedre

Abstract

Description

Published

2021

19. Proinflammatory cytokines promote TET2-mediated DNA demethylation during CD8 T cell effector differentiation

Author

Zebley, Caitlin C., Abdelsamed, Hossam A., Ghoneim, Hazem E., Alli, Shanta, Brown, Charmaine, Haydar, Dalia, Mi, Tian, Harris, Tarsha, McGargill, Maureen A., Krenciute, Giedre, and Youngblood, Ben

Abstract

To gain insight into the signaling determinants of effector-associated DNA methylation programming among CD8 T cells, we explore the role of interleukin (IL)-12 in the imprinting of IFNg expression during CD8 T cell priming. We observe that anti-CD3/CD28-mediated stimulation of human naive CD8 T cells is not sufficient to induce substantial demethylation of the IFNg promoter. However, anti-CD3/CD28 stimulation in the presence of the inflammatory cytokine, IL-12, results in stable demethylation of the IFNg locus that is commensurate with IFNg expression. IL-12-associated demethylation of the IFNg locus is coupled to cell division through TET2-dependent demethylation in an ex vivohuman chimeric antigen receptor T cell model system and an in vivoimmunologically competent murine system. Collectively, these data illustrate that IL-12 signaling promotes TET2-mediated effector DNA demethylation programming in CD8 T cells and serve as proof of concept that cytokines can guide induction of epigenetically regulated traits for T cell-based immunotherapies.

Published

2021

20. Hypoxia-inducible CAR expression: An answer to the on-target/off-tumor dilemma?

Author

Prinzing, Brooke and Krenciute, Giedre

Abstract

On-target/off-tumor toxicity is one of the major concerns regarding CAR T-cell therapy. Kosti et al.1demonstrate that this form of toxicity can be prevented by designing a CAR whose expression is controlled by oxygen levels in the tumor environment.

Published

2021