Your search keyword '"Legut, Mateusz"' showing total 15 results

1. Recurrent somatic mutations as predictors of immunotherapy response.

Author

Gajic, Zoran Z., Deshpande, Aditya, Legut, Mateusz, Imieliński, Marcin, and Sanjana, Neville E.

Subjects

SOMATIC mutation, CANCER genes, P53 antioncogene, IMMUNOTHERAPY, IMMUNE checkpoint proteins, BRAF genes, PROGNOSTIC tests

Abstract

Immune checkpoint blockade (ICB) has transformed the treatment of metastatic cancer but is hindered by variable response rates. A key unmet need is the identification of biomarkers that predict treatment response. To address this, we analyzed six whole exome sequencing cohorts with matched disease outcomes to identify genes and pathways predictive of ICB response. To increase detection power, we focus on genes and pathways that are significantly mutated following correction for epigenetic, replication timing, and sequence-based covariates. Using this technique, we identify several genes (BCLAF1, KRAS, BRAF, and TP53) and pathways (MAPK signaling, p53 associated, and immunomodulatory) as predictors of ICB response and develop the Cancer Immunotherapy Response CLassifiEr (CIRCLE). Compared to tumor mutational burden alone, CIRCLE led to superior prediction of ICB response with a 10.5% increase in sensitivity and a 11% increase in specificity. We envision that CIRCLE and more broadly the analysis of recurrently mutated cancer genes will pave the way for better prognostic tools for cancer immunotherapy. Few genetic biomarkers are known for cancer immunotherapy. Here the authors identify recurrently-mutated genes and pathways associated with treatment response and develop a classifier using tumour whole exome sequencing and clinical features. [ABSTRACT FROM AUTHOR]

Published

2022

2. A genome-scale screen for synthetic drivers of T cell proliferation.

Author

Legut, Mateusz, Gajic, Zoran, Guarino, Maria, Daniloski, Zharko, Rahman, Jahan A., Xue, Xinhe, Lu, Congyi, Lu, Lu, Mimitou, Eleni P., Hao, Stephanie, Davoli, Teresa, Diefenbach, Catherine, Smibert, Peter, and Sanjana, Neville E.

Abstract

The engineering of autologous patient T cells for adoptive cell therapies has revolutionized the treatment of several types of cancer1. However, further improvements are needed to increase response and cure rates. CRISPR-based loss-of-function screens have been limited to negative regulators of T cell functions2–4 and raise safety concerns owing to the permanent modification of the genome. Here we identify positive regulators of T cell functions through overexpression of around 12,000 barcoded human open reading frames (ORFs). The top-ranked genes increased the proliferation and activation of primary human CD4+ and CD8+ T cells and their secretion of key cytokines such as interleukin-2 and interferon-γ. In addition, we developed the single-cell genomics method OverCITE-seq for high-throughput quantification of the transcriptome and surface antigens in ORF-engineered T cells. The top-ranked ORF—lymphotoxin-β receptor (LTBR)—is typically expressed in myeloid cells but absent in lymphocytes. When overexpressed in T cells, LTBR induced profound transcriptional and epigenomic remodelling, leading to increased T cell effector functions and resistance to exhaustion in chronic stimulation settings through constitutive activation of the canonical NF-κB pathway. LTBR and other highly ranked genes improved the antigen-specific responses of chimeric antigen receptor T cells and γδ T cells, highlighting their potential for future cancer-agnostic therapies5. Our results provide several strategies for improving next-generation T cell therapies by the induction of synthetic cell programmes.A genome-scale gain-of-function screen using overexpression of nearly 12,000 open reading frames (ORFs) identifies positive regulators of human T cell function and suggests that ORF-based screens could be applied clinically to improve T cell therapies. [ABSTRACT FROM AUTHOR]

Published

2022

3. Endovascular treatment of infrarenal aortic aneurysm using the ANKURA stent graft - one-center case series.

Author

Nowakowski, Przemysław, Uchto, Wojciech, Stoliński, Jarosław, Gubała, Marek, and Legut, Mateusz

Subjects

ENDOVASCULAR surgery, AORTIC aneurysms, ENDOVASCULAR aneurysm repair, AORTIC rupture, VASCULAR closure devices, MINIMALLY invasive procedures, FLUOROSCOPY, THERAPEUTIC embolization, INTERMITTENT claudication

Published

2023

4. Massively parallel Cas13 screens reveal principles for guide RNA design.

Author

Wessels, Hans-Hermann, Méndez-Mancilla, Alejandro, Guo, Xinyi, Legut, Mateusz, Daniloski, Zharko, and Sanjana, Neville E.

Abstract

Type VI CRISPR enzymes are RNA-targeting proteins with nuclease activity that enable specific and robust target gene knockdown without altering the genome. To define rules for the design of Cas13d guide RNAs (gRNAs), we conducted massively parallel screens targeting messenger RNAs (mRNAs) of a green fluorescent protein transgene, and CD46, CD55 and CD71 cell-surface proteins in human cells. In total, we measured the activity of 24,460 gRNAs with and without mismatches relative to the target sequences. Knockdown efficacy is driven by gRNA-specific features and target site context. Single mismatches generally reduce knockdown to a modest degree, but spacer nucleotides 15–21 are largely intolerant of target site mismatches. We developed a computational model to identify optimal gRNAs and confirm their generalizability, testing 3,979 guides targeting mRNAs of 48 endogenous genes. We show that Cas13 can be used in forward transcriptomic pooled screens and, using our model, predict optimized Cas13 gRNAs for all protein-coding transcripts in the human genome. Design of optimal guide RNAs for Cas13d-mediated RNA knockdown is enabled by computational modeling of large-scale screening data. [ABSTRACT FROM AUTHOR]

Published

2020

5. TCR‐induced alteration of primary MHC peptide anchor residue.

Author

Madura, Florian, Rizkallah, Pierre J., Legut, Mateusz, Holland, Christopher J., Fuller, Anna, Bulek, Anna, Schauenburg, Andrea J., Trimby, Andrew, Hopkins, Jade R., Wells, Stephen A., Godkin, Andrew, Miles, John J., Sami, Malkit, Li, Yi, Liddy, Nathaniel, Jakobsen, Bent K., Loveridge, E. Joel, Cole, David K., and Sewell, Andrew K.

Subjects

IMMUNE recognition, T cell receptors, CELL membranes, T cells, SURFACE plasmon resonance, CELLULAR recognition

Abstract

The HLA‐A*02:01‐restricted decapeptide EAAGIGILTV, derived from melanoma antigen recognized by T‐cells‐1 (MART‐1) protein, represents one of the best‐studied tumor associated T‐cell epitopes, but clinical results targeting this peptide have been disappointing. This limitation may reflect the dominance of the nonapeptide, AAGIGILTV, at the melanoma cell surface. The decapeptide and nonapeptide are presented in distinct conformations by HLA‐A*02:01 and TCRs from clinically relevant T‐cell clones recognize the nonapeptide poorly. Here, we studied the MEL5 TCR that potently recognizes the nonapeptide. The structure of the MEL5‐HLA‐A*02:01‐AAGIGILTV complex revealed an induced fit mechanism of antigen recognition involving altered peptide–MHC anchoring. This "flexing" at the TCR–peptide–MHC interface to accommodate the peptide antigen explains previously observed incongruences in this well‐studied system and has important implications for future therapeutic approaches. Finally, this study expands upon the mechanisms by which molecular plasticity can influence antigen recognition by T cells. [ABSTRACT FROM AUTHOR]

Published

2019

6. Nonstimulatory peptide–MHC enhances human T-cell antigen-specific responses by amplifying proximal TCR signaling.

Author

Xiang Zhao, Sankaran, Shvetha, Jiawei Yap, Chien Tei Too, Zi Zong Ho, Dolton, Garry, Legut, Mateusz, Ee Chee Ren, Sewell, Andrew K., Bertoletti, Antonio, MacAry, Paul A., Brzostek, Joanna, and Gascoigne, Nicholas R. J.

Abstract

Foreign antigens are presented by antigen-presenting cells in the presence of abundant endogenous peptides that are nonstimulatory to the T cell. In mouse T cells, endogenous, nonstimulatory peptides have been shown to enhance responses to specific peptide antigens, a phenomenon termed coagonism. However, whether coagonism also occurs in human T cells is unclear, and the molecular mechanism of coagonism is still under debate since CD4 and CD8 coagonism requires different interactions. Here we show that the nonstimulatory, HIV-derived peptide GAG enhances a specific human cytotoxic T lymphocyte response to HBV-derived epitopes presented by HLA-A*02:01. Coagonism in human T cells requires the CD8 coreceptor, but not T-cell receptor (TCR) binding to the nonstimulatory peptide–MHC. Coagonists enhance the phosphorylation and recruitment of several molecules involved in the TCR-proximal signaling pathway, suggesting that coagonists promote T-cell responses to antigenic pMHC by amplifying TCR-proximal signaling. [ABSTRACT FROM AUTHOR]

Published

2018

7. Optimized Peptide-MHC Multimer Protocols for Detection and Isolation of Autoimmune T-Cells.

Author

Dolton, Garry, Zervoudi, Efthalia, Rius, Cristina, Wall, Aaron, Thomas, Hannah L., Fuller, Anna, Yeo, Lorraine, Legut, Mateusz, Wheeler, Sophie, Attaf, Meriem, Chudakov, Dmitriy M., Choy, Ernest, Peakman, Mark, and Sewell, Andrew K.

Subjects

MAJOR histocompatibility complex, AUTOIMMUNITY, T cells

Abstract

Peptide-MHC (pMHC) multimers have become the "gold standard" for the detection and isolation of antigen-specific T-cells but recent evidence shows that normal use of these reagents can miss fully functional T-cells that bear T-cell receptors (TCRs) with low affinity for cognate antigen. This issue is particularly pronounced for anticancer and autoimmune T-cells as self-reactive T-cell populations are enriched for low-affinity TCRs due to the removal of cells with higher affinity receptors by immune tolerance mechanisms. Here, we stained a wide variety of self-reactive human T-cells using regular pMHC staining and an optimized technique that included: (i) protein kinase inhibitor (PKI), to prevent TCR triggering and internalization, and (ii) anti-fluorochrome antibody, to reduce reagent dissociation during washing steps. Lymphocytes derived from the peripheral blood of type 1 diabetes patients were stained with pMHC multimers made with epitopes from preproinsulin (PPI), insulin-β chain, glutamic acid decarboxylase 65 (GAD65), or glucose-6-phospate catalytic subunit-related protein (IGRP) presented by disease-risk allelles HLA A*02:01 or HLA*24:02. Samples from ankylosing spondylitis patients were stained with a multimerized epitope from vasoactive intestinal polypeptide receptor 1 (VIPR1) presented by HLA B*27:05. Optimized procedures stained an average of 40.5-fold (p = 0.01, range between 1.4 and 198) more cells than could be detected without the inclusion of PKI and cross-linking anti-fluorochrome antibody. Higher order pMHC dextramers recovered more cells than pMHC tetramers in parallel assays, and standard staining protocols with pMHC tetramers routinely recovered less cells than functional assays. HLA A*02:01-restricted PPI-specific and HLA B*27:05-restricted VIPR1-specific T-cell clones generated using the optimized procedure could not be stained by standard pMHC tetramer staining. However, these clones responded well to exogenously supplied peptide and endogenously processed and presented epitopes. We also showed that anti-fluorochrome antibody-conjugated magnetic beads enhanced staining of self-reactive T-cells that could not be stained using standard protocols, thus enabling rapid ex vivo isolation of autoimmune T-cells. We, therefore, conclude that regular pMHC tetramer staining is generally unsuitable for recovering self-reactive T-cells from clinical samples and recommend the use of the optimized protocols described herein. [ABSTRACT FROM AUTHOR]

Published

2018

8. Dual Molecular Mechanisms Govern Escape at Immunodominant HLA A2-Restricted HIV Epitope.

Author

Cole, David K., Fuller, Anna, Dolton, Garry, Zervoudi, Efthalia, Legut, Mateusz, Miles, Kim, Blanchfield, Lori, Madura, Florian, Holland, Christopher J., Bulek, Anna M., Bridgeman, John S., Miles, John J., Schauenburg, Andrea J. A., Beck, Konrad, Evavold, Brian D., Rizkallah, Pierre J., and Sewell, Andrew K.

Subjects

HIV, T cells, T cell receptors

Abstract

Serial accumulation of mutations to fixation in the SLYNTVATL (SL9) immunodominant, HIV p17 Gag-derived, HLA A2-restricted cytotoxic T lymphocyte epitope produce the SLFNTIAVL triple mutant "ultimate" escape variant. These mutations in solvent-exposed residues are believed to interfere with TCR recognition, although confirmation has awaited structural verification. Here, we solved a TCR co-complex structure with SL9 and the triple escape mutant to determine the mechanism of immune escape in this eminent system. We show that, in contrast to prevailing hypotheses, the main TCR contact residue is 4N and the dominant mechanism of escape is not via lack of TCR engagement. Instead, mutation of solvent-exposed residues in the peptide destabilise the peptide-HLA and reduce peptide density at the cell surface. These results highlight the extraordinary lengths that HIV employs to evade detection by high-affinity TCRs with a broad peptide-binding footprint and necessitate re-evaluation of this exemplar model of HIV TCR escape. [ABSTRACT FROM AUTHOR]

Published

2017

9. Incorporation of Peptides Targeting EGFR and FGFR1 into the Adenoviral Fiber Knob Domain and Their Evaluation as Targeted Cancer Therapies.

Author

Uusi-Kerttula, Hanni, Legut, Mateusz, Davies, James, Jones, Rachel, Hudson, Emma, Hanna, Louise, Stanton, Richard J., Chester, John D., and Parker, Alan L.

Published

2015

10. Publisher Correction: Recurrent somatic mutations as predictors of immunotherapy response.

Author

Gajic, Zoran Z., Deshpande, Aditya, Legut, Mateusz, Imieliński, Marcin, and Sanjana, Neville E.

Subjects

IMMUNOTHERAPY, SOMATIC mutation, INTERNET publishing

Abstract

Correction to: I Nature Communications i https://doi.org/10.1038/s41467-022-31055-3, published online 08 July 2022 The original HTML version of this Article contained an error in Fig. This has been corrected in the HTML version of the Article. The original article can be found online at https://doi.org/10.1038/s41467-022-31055-3. [Extracted from the article]

Published

2022

11. Anacardic acid enhances the anticancer activity of liposomal mitoxantrone towards melanoma cell lines - in vitro studies.

Author

Legut, Mateusz, Lipka, Dominik, Filipczak, Nina, Piwoni, Adriana, Kozubek, Arkadiusz, and Gubernator, Jerzy

Published

2014

12. Anacardic acid enhances the anticancer activity of liposomal mitoxantrone towards melanoma cell lines – in vitro studies.

Author

Legut, Mateusz, Lipka, Dominik, Filipczak, Nina, Piwoni, Adriana, Kozubek, Arkadiusz, and Gubernator, Jerzy

Published

2014

13. Vitamin C-driven epirubicin loading into liposomes.

Author

Lipka, Dominik, Gubernator, Jerzy, Filipczak, Nina, Barnert, Sabine, Süss, Regine, Legut, Mateusz, and Kozubek, Arkadiusz

Published

2013

14. Immunomagnetic cell sorting.

Author

Legut, Mateusz and Sanjana, Neville E.

Published

2019

15. High-Throughput Screens of PAM-Flexible Cas9 Variants for Gene Knockout and Transcriptional Modulation.

Author

Legut, Mateusz, Daniloski, Zharko, Xue, Xinhe, McKenzie, Dayna, Guo, Xinyi, Wessels, Hans-Hermann, and Sanjana, Neville E.

Abstract

A key limitation of the widely used CRISPR enzyme S. pyogenes Cas9 is the strict requirement of an NGG protospacer-adjacent motif (PAM) at the target site. This constraint can be limiting for genome editing applications that require precise Cas9 positioning. Recently, two Cas9 variants with a relaxed PAM requirement (NG) have been developed (xCas9 and Cas9-NG), but their activity has been measured at only a small number of endogenous sites. Here, we devise a high-throughput Cas9 pooled competition screen to compare the performance of Cas9 variants at thousands of genomic loci for gene knockout, transcriptional activation, and inhibition. We show that PAM flexibility comes at a substantial cost of decreased DNA targeting and cleavage. Of the PAM-flexible variants, we find that Cas9-NG outperforms xCas9 regardless of genome engineering modality or PAM. Finally, we combine xCas9 mutations with those of Cas9-NG, creating a stronger transcriptional modulator than existing PAM-flexible Cas9 variants. • PAM flexibility of Sp Cas9 mutants comes at a cost of reduced editing efficacy • Cas9-NG mutant outperforms xCas9 at NG PAMs • Combining Cas9-NG and xCas9 mutations results in a functional enzyme ("xCas9-NG") • xCas9-NG is superior to both Cas9-NG and xCas9 for transcriptional activation. Cas9 requires an NGG protospacer-adjacent motif (PAM) at its DNA target site. Here, Legut et al. benchmark Cas9 and two recently developed PAM-flexible variants, showing that PAM flexibility comes with reduced efficacy. The authors also report a hybrid enzyme combining mutations from both PAM-flexible variants, demonstrating its improved efficacy for transcriptional activation. [ABSTRACT FROM AUTHOR]

Published

2020