Your search keyword '"Thomas Carrol"' showing total 29 results

1. Urinary Extracellular vesicles abundance of SLC12A3 (NCC) increase and Aquaporine2 decrease following DASH diet implementation

Author

Dana Bielopolski, Luca Musante, Henrik Molina, Douglas Barrows, Thomas Carrol, Jonathan N. Tobin, Rhonda. G Kost, and U Erdbruegger

Abstract

The Dietary Approach to Stop Hypertension (DASH) diet is a proven intervention to treat hypertension, yet its mechanism is not clearly known. We investigated the change in protein abundance patterns in urine extracellular vesicles (uEV’s) following DASH diet implementation.A pilot study was carried out to compare uEVs isolated using three different methods: a low centrifugation (P20), high centrifugation (P100), and a combination of both (P20 and P100). Uromodulin was removed by size exclusion chromatography and low ionic strength washing. Mass spectrometry analysis identified 1,593 proteins in the combined fraction (P20+P100), 1434 in the P20 fraction and 1229 in the P100 fraction. The combined fraction was chosen for further analysis. Statistical analysis was carried out using R and Limma to identify all proteins that changed before and during 11 days of DASH intervention (p < 0.05) as well as between individual timepoints.Nine hypertensive volunteers were admitted for a 14-day supervised transition from American style diet to DASH diet. First-void urine was collected on days 0, 5, 11 for uEV processing. In total, 1800 proteins were identified across all 27 DASH samples with 22 proteins upregulated and 25 down regulated between day 0 and both days 5 and 11. These included increased abundance of SLC12A3 (NCC) and reduced abundance of Aquaporine 2.These changes could explain the increased urine volume and reduced sodium reabsorption that lead to blood pressure reduction following consumption of the high potassium and low sodium DASH diet. uEVs may serve as a surrogate to a more invasive procedure.Translational StatementMyriad studies have characterized blood pressure reduction following DASH diet implementation, yet its precise mechanism is unclear. Here, we demonstrate for the first time the effect of DASH nutritional changes, on kidney ion channel composition using proteomic analysis of urinary EVs. Using this innovative tool as a substitute for an invasive procedure, we show that the expression of Aquaporine2 increases and NCC decreases in response to DASH which may account for its antihypertensive effect. Our results indicate that urinary EV are a potential biomarker for DASH compliance, and targeting aquaporine2 may be an effective innovative therapeutic strategy for blood pressure reduction.

Published

2022

2. PROTAC-mediated conditional degradation of the WRN helicase as a potential strategy for selective killing of cancer cells with microsatellite instability

Author

Vikram Tejwani, Thomas Carroll, Thomas Macartney, Susanne Bandau, Constance Alabert, Giulia Saredi, Rachel Toth, and John Rouse

Subjects

WRN, Werner syndrome, MSI, Microsatellite instability, Cancer, PROTAC, Medicine, Science

Abstract

Abstract Multiple studies have demonstrated that cancer cells with microsatellite instability (MSI) are intolerant to loss of the Werner syndrome helicase (WRN), whereas microsatellite-stable (MSS) cancer cells are not. Therefore, WRN represents a promising new synthetic lethal target for developing drugs to treat cancers with MSI. Given the uncertainty of how effective inhibitors of WRN activity will prove in clinical trials, and the likelihood of tumours developing resistance to WRN inhibitors, alternative strategies for impeding WRN function are needed. Proteolysis-targeting chimeras (PROTACs) are heterobifunctional small molecules that target specific proteins for degradation. Here, we engineered the WRN locus so that the gene product is fused to a bromodomain (Bd)-tag, enabling conditional WRN degradation with the AGB-1 PROTAC specific for the Bd-tag. Our data revealed that WRN degradation is highly toxic in MSI but not MSS cell lines. In MSI cells, WRN degradation caused G2/M arrest, chromosome breakage and ATM kinase activation. We also describe a multi-colour cell-based platform for facile testing of selective toxicity in MSI versus MSS cell lines. Together, our data show that a degrader approach is a potentially powerful way of targeting WRN in MSI cancers and paves the way for the development of WRN-specific PROTAC compounds.

Published

2024

3. Cancer-associated Histone H3 N-terminal arginine mutations disrupt PRC2 activity and impair differentiation

Author

Benjamin A. Nacev, Yakshi Dabas, Matthew R. Paul, Christian Pacheco, Michelle Mitchener, Yekaterina Perez, Yan Fang, Alexey A. Soshnev, Douglas Barrows, Thomas Carroll, Nicholas D. Socci, Samantha C. St. Jean, Sagarika Tiwari, Michael J. Gruss, Sebastien Monette, William D. Tap, Benjamin A. Garcia, Tom Muir, and C. David Allis

Subjects

Science

Abstract

Abstract Dysregulated epigenetic states are a hallmark of cancer and often arise from genetic alterations in epigenetic regulators. This includes missense mutations in histones, which, together with associated DNA, form nucleosome core particles. However, the oncogenic mechanisms of most histone mutations are unknown. Here, we demonstrate that cancer-associated histone mutations at arginines in the histone H3 N-terminal tail disrupt repressive chromatin domains, alter gene regulation, and dysregulate differentiation. We find that histone H3R2C and R26C mutants reduce transcriptionally repressive H3K27me3. While H3K27me3 depletion in cells expressing these mutants is exclusively observed on the minor fraction of histone tails harboring the mutations, the same mutants recurrently disrupt broad H3K27me3 domains in the chromatin context, including near developmentally regulated promoters. H3K27me3 loss leads to de-repression of differentiation pathways, with concordant effects between H3R2 and H3R26 mutants despite different proximity to the PRC2 substrate, H3K27. Functionally, H3R26C-expressing mesenchymal progenitor cells and murine embryonic stem cell-derived teratomas demonstrate impaired differentiation. Collectively, these data show that cancer-associated H3 N-terminal arginine mutations reduce PRC2 activity and disrupt chromatin-dependent developmental functions, a cancer-relevant phenotype.

Published

2024

4. Fanconi Anemia Pathway Deficiency Drives Copy Number Variation in Squamous Cell Carcinomas

Author

Sunandini Sridhar, David I. Kutler, Bhuvanesh Singh, Susanne I. Wells, Ji-Dung Luo, Mathijs A. Sanders, Margaret L. MacMillan, Ashlyn-Maree Gonzalez, Lorenzo Bean, Rebecca Tryon, Huasong Tian, Jordi Surrallés, Arleen D. Auerbach, Kevin Hadi, Moonjung Jung, Ralf Dietrich, Matthew M. Edwards, Eunike Velleuer, Krupa R. Patel, Frank X. Donovan, Amnon Koren, Marcin Imielinski, Audrey Goldfarb, Ozgur Rosti, Jeffrey C. Rastatter, Theresa Scognamiglio, John E. Wagner, Andrew L.H. Webster, Maria Cancio, Olivier Fedrigo, Agata Smogorzewska, Jennifer A. Kennedy, Thomas Carrol, Grover C. Bagby, Joel Rosiene, Allana Rosenberg, Thomas Heineman, Ryan R. White, Raymond J. Noonan, Farid Boulad, Francis P. Lach, Settara C. Chandrasekharappa, Peter J. Campbell, and Roger D. Vaughan

Subjects

YAP1, Genome instability, Fanconi anemia, Chromosomal fragile site, medicine, Cancer research, Context (language use), Copy-number variation, Biology, medicine.disease, Carcinogenesis, medicine.disease_cause, FANC proteins

Abstract

Fanconi anemia (FA), a model syndrome of genome instability, is caused by a deficiency in DNA interstrand crosslink (ICL) repair resulting in chromosome breakage1–3. The FA repair pathway comprises at least 22 FANC proteins including BRCA1 and BRCA24–6, and protects against carcinogenic endogenous and exogenous aldehydes7–10. Individuals with FA are hundreds to thousands-fold more likely to develop head and neck (HNSCC), esophageal and anogenital squamous cell carcinomas (SCCs) with a median onset age of 31 years11. The aggressive nature of these tumors and poor patient tolerance of platinum and radiation-based therapy have been associated with short survival in FA11–16. Molecular studies of SCCs from individuals with FA (FA SCCs) have been limited, and it is unclear how they relate to sporadic HNSCCs primarily driven by tobacco and alcohol exposure or human papillomavirus (HPV) infection17. Here, by sequencing FA SCCs, we demonstrate that the primary genomic signature of FA-deficiency is the presence of a high number of structural variants (SVs). SVs are enriched for small deletions, unbalanced translocations, and fold-back inversions that arise in the context of TP53 loss. The SV breakpoints preferentially localize to early replicating regions, common fragile sites, tandem repeats, and SINE elements. SVs are often connected forming complex rearrangements. Resultant genomic instability underlies elevated copy number alteration (CNA) rates of key HNSCC-associated genes, including PIK3CA, MYC, CSMD1, PTPRD, YAP1, MXD4, and EGFR. In contrast to sporadic HNSCC, we find no evidence of HPV infection in FA HNSCC, although positive cases were identified in gynecologic tumors. A murine allograft model of FA pathway-deficient SCC was enriched in SVs, exhibited dramatic tumor growth advantage, more rapid epithelial-to-mesenchymal transition (EMT), and enhanced autonomous inflammatory signaling when compared to an FA pathway-proficient model. In light of the protective role of the FA pathway against SV formation uncovered here, and recent findings of FA pathway insufficiency in the setting of increased formaldehyde load resulting in hematopoietic stem cell failure and carcinogenesis18–20, we propose that high copy-number instability in sporadic HNSCC may result from functional overload of the FA pathway by endogenous and exogenous DNA crosslinking agents. Our work lays the foundation for improved FA patient treatment and demonstrates that FA SCC is a powerful model to study tumorigenesis resulting from DNA crosslinking damage.

Published

2021

5. Abstract 6196: Fanconi anemia pathway deficiency drives copy number variation in squamous cell carcinoma

Author

Andrew L. Webster, Mathijs A. Sanders, Krupa Patel, Ralf Dietrich, Raymond J. Noonan, Francis P. Lach, Ryan R. White, Audrey M. Goldfarb, Kevin Hadi, Matthew M. Edwards, Frank X. Donovan, Moonjung Jung, Sunandini Sridhar, Olivier Fedrigo, Huasong Tian, Joel Rosiene, Thomas Heineman, Jennifer Kennedy, Lorenzo Bean, Rasim O. Rosti, Rebecca Tryon, Ashlyn-Maree Gonzalez, Allana Rosenberg, Ji-Dung Luo, Thomas Carrol, Eunike Velleuer, Jeff C. Rastatter, Susanne I. Wells, Jordi Surrallés, Grover Bagby, Margaret L. MacMillan, John E. Wagner, Maria Cancio, Farid Boulad, Theresa Scognamiglio, Roger Vaughan, Amnon Koren, Marcin Imielinski, Settara Chandrasekharappa, Arleen D. Auerbach, Bhuvanesh Singh, David Kutler, Peter J. Campbell, and Agata Smogorzewska

Subjects

Cancer Research, Oncology

Abstract

Fanconi anemia (FA), a model syndrome of genome instability, is caused by a deficiency in DNA interstrand crosslink (ICL) repair resulting in chromosome breakage. The FA repair pathway comprises at least 22 FANC proteins including BRCA1 and BRCA2 and protects against carcinogenic endogenous and exogenous aldehydes. Individuals with FA are hundreds to thousands-fold more likely to develop head and neck (HNSCC), esophageal and anogenital squamous cell carcinomas (SCCs) with a median onset age of 31 years. The aggressive nature of these tumors and poor patient tolerance of platinum and radiation-based therapy have been associated with short survival in FA. Molecular studies of SCCs from individuals with FA (FA SCCs) have been limited, and it is unclear how they relate to sporadic HNSCCs primarily driven by tobacco and alcohol exposure or human papillomavirus (HPV) infection. Here, by sequencing FA SCCs, we demonstrate that the primary genomic signature of FA-deficiency is the presence of a high number of structural variants (SVs). SVs are enriched for small deletions, unbalanced translocations, and fold-back inversions that arise in the context of TP53 loss. The SV breakpoints preferentially localize to early replicating regions, common fragile sites, tandem repeats, and SINE elements. SVs are often connected forming complex rearrangements. Resultant genomic instability underlies elevated copy number alteration (CNA) rates of key HNSCC-associated genes, including PIK3CA, MYC, CSMD1, PTPRD, YAP1, MXD4, and EGFR. In contrast to sporadic HNSCC, we find no evidence of HPV infection in FA HNSCC, although positive cases were identified in gynecologic tumors. A murine allograft model of FA pathway-deficient SCC was enriched in SVs, exhibited dramatic tumor growth advantage, more rapid epithelial-to-mesenchymal transition, and enhanced autonomous inflammatory signaling when compared to an FA pathway-proficient model. In light of the protective role of the FA pathway against SV formation uncovered here, and recent findings of FA pathway insufficiency in the setting of increased formaldehyde load resulting in hematopoietic stem cell failure and carcinogenesis, we propose that high copy-number instability in sporadic HNSCC may result from functional overload of the FA pathway by endogenous and exogenous DNA crosslinking agents. Our work lays the foundation for improved FA patient treatment and demonstrates that FA SCC is a powerful model to study tumorigenesis resulting from DNA crosslinking damage. Citation Format: Andrew L. Webster, Mathijs A. Sanders, Krupa Patel, Ralf Dietrich, Raymond J. Noonan, Francis P. Lach, Ryan R. White, Audrey M. Goldfarb, Kevin Hadi, Matthew M. Edwards, Frank X. Donovan, Moonjung Jung, Sunandini Sridhar, Olivier Fedrigo, Huasong Tian, Joel Rosiene, Thomas Heineman, Jennifer Kennedy, Lorenzo Bean, Rasim O. Rosti, Rebecca Tryon, Ashlyn-Maree Gonzalez, Allana Rosenberg, Ji-Dung Luo, Thomas Carrol, Eunike Velleuer, Jeff C. Rastatter, Susanne I. Wells, Jordi Surrallés, Grover Bagby, Margaret L. MacMillan, John E. Wagner, Maria Cancio, Farid Boulad, Theresa Scognamiglio, Roger Vaughan, Amnon Koren, Marcin Imielinski, Settara Chandrasekharappa, Arleen D. Auerbach, Bhuvanesh Singh, David Kutler, Peter J. Campbell, Agata Smogorzewska. Fanconi anemia pathway deficiency drives copy number variation in squamous cell carcinoma [abstract]. In: Proceedings of the American Association for Cancer Research Annual Meeting 2022; 2022 Apr 8-13. Philadelphia (PA): AACR; Cancer Res 2022;82(12_Suppl):Abstract nr 6196.

Published

2022

6. RTF2 controls replication repriming and ribonucleotide excision at the replisome

Author

Brooke A. Conti, Penelope D. Ruiz, Cayla Broton, Nicolas J. Blobel, Molly C. Kottemann, Sunandini Sridhar, Francis P. Lach, Tom F. Wiley, Nanda K. Sasi, Thomas Carroll, and Agata Smogorzewska

Subjects

Science

Abstract

Abstract DNA replication through a challenging genomic landscape is coordinated by the replisome, which must adjust to local conditions to provide appropriate replication speed and respond to lesions that hinder its progression. We have previously shown that proteasome shuttle proteins, DNA Damage Inducible 1 and 2 (DDI1/2), regulate Replication Termination Factor 2 (RTF2) levels at stalled replisomes, allowing fork stabilization and restart. Here, we show that during unperturbed replication, RTF2 regulates replisome localization of RNase H2, a heterotrimeric enzyme that removes RNA from RNA-DNA heteroduplexes. RTF2, like RNase H2, is essential for mammalian development and maintains normal replication speed. However, persistent RTF2 and RNase H2 at stalled replication forks prevent efficient replication restart, which is dependent on PRIM1, the primase component of DNA polymerase α-primase. Our data show a fundamental need for RTF2-dependent regulation of replication-coupled ribonucleotide removal and reveal the existence of PRIM1-mediated direct replication restart in mammalian cells.

Published

2024

7. Modes of Mindfulness in Post-Catholic Ireland

Author

Thomas Carroll

Subjects

mindfulness, religion in Ireland, post-Catholic, spirituality, post-secular spirituality, post-Christian, Religions. Mythology. Rationalism, BL1-2790

Abstract

The Republic of Ireland has undergone a seismic religious and social transformation in recent decades. Through the processes of secularization and detraditionalization, as well as several major scandals within the Irish Catholic Church, irreligiosity has become an increasing reality in terms of the hitherto overwhelmingly Catholic population. At a time of spiritual climate change in this post-Catholic Ireland, the contemporary phenomenon of mindfulness has exploded in popularity across various elements of society. Against this backdrop, three distinctive modes or strands of mindfulness are proposed as being operative in the Irish context, each catering to the needs of different practitioners. The proposed modes include psychological and clinical mindfulness and commodified and post-secular spirituality. Within the lacuna created by the receding of Catholic belief and practice, the emergence of mindfulness in the Irish context is explored, mapping how this originally Buddhist practice has gained such a foothold in contemporary spiritual discourse.

Published

2024

8. Author Correction: Cancer-associated Histone H3 N-terminal arginine mutations disrupt PRC2 activity and impair differentiation

Author

Benjamin A. Nacev, Yakshi Dabas, Matthew R. Paul, Christian Pacheco, Michelle Mitchener, Yekaterina Perez, Yan Fang, Alexey A. Soshnev, Douglas Barrows, Thomas Carroll, Nicholas D. Socci, Samantha C. St. Jean, Sagarika Tiwari, Michael J. Gruss, Sebastien Monette, William D. Tap, Benjamin A. Garcia, Tom Muir, and C. David Allis

Subjects

Science

Published

2024

9. The catalytic domain of the histone methyltransferase NSD2/MMSET is required for the generation of B1 cells in mice

Author

Marc-Werner Dobenecker, Annette Becker, Eugene Rudensky, Jonas Marcello, Alexander Tarakhovsky, Benjamin A. Garcia, Vyacheslav Yurchenko, Rabinder Kumar Prinjha, Thomas Carrol, and Natarajan V. Bhanu

Subjects

Biophysics, Regulator, Biology, Biochemistry, Methylation, Article, Histones, 03 medical and health sciences, Histone H3, Structure-Activity Relationship, Antigen, Structural Biology, Catalytic Domain, Histone methylation, Genetics, Animals, Epigenetics, Molecular Biology, 030304 developmental biology, 0303 health sciences, B-Lymphocytes, Lysine, 030302 biochemistry & molecular biology, Cell Biology, Histone-Lysine N-Methyltransferase, Germinal Center, Immunoglobulin Class Switching, Survival Analysis, Cell biology, Immunity, Humoral, B-1 cell, Mice, Inbred C57BL, Animals, Newborn, Histone methyltransferase, Humoral immunity

Abstract

Humoral immunity in mammals relies on the function of two developmentally and functionally distinct B cell subsets - B1 and B2 cells. While B2 cells are responsible for the adaptive response to environmental antigens, B1 cells regulate the production of polyreactive and low affinity antibodies for innate humoral immunity. The molecular mechanism of B cell specification into different subsets is understudied. In this study, we identified lysine methyltransferase NSD2 (MMSET/WHSC1) as a critical regulator of B1 cell development. In contrast to its minor impact on B2 cells, deletion of the catalytic domain of NSD2 in primary B cells impairs the generation of B1 lineage. Thus, NSD2, a histone H3 K36 dimethylase, is the first-in-class epigenetic regulator of a B cell lineage in mice.

Published

2020

10. Clinicians’ Perspectives on the Telehealth Serious Illness Care Program for Older Adults With Myeloid Malignancies: Single-Arm Pilot Study

Author

Marissa LoCastro, Ying Wang, Tristan Yu, Soroush Mortaz-Hedjri, Jason Mendler, Sally Norton, Rachelle Bernacki, Thomas Carroll, Heidi Klepin, Lucy Wedow, Sean Goonan, Hannah Erdos, Brenda Bagnato, Jane Liesveld, Eric Huselton, Benzi Kluger, and Kah Poh Loh

Subjects

Medicine

Abstract

BackgroundSerious illness conversations may help patients avoid unwanted treatments. We previously piloted the telehealth Serious Illness Care Program (SICP) for older adults with acute myeloid leukemia and myelodysplastic syndrome. ObjectiveIn this study, we aimed to understand the experience of the telehealth SICP from the clinician’s perspective. MethodsWe studied 10 clinicians who delivered the telehealth SICP to 20 older adults with acute myeloid leukemia or myelodysplastic syndrome. Quantitative outcomes included confidence and acceptability. Confidence was measured using a 22-item survey (range 1-7; a higher score is better). Acceptability was measured using an 11-item survey (5-point Likert scale). Hypothesis testing was performed at α=.10 (2-tailed) due to the pilot nature and small sample size. Clinicians participated in audio-recorded qualitative interviews at the end of the study to discuss their experience. ResultsA total of 8 clinicians completed the confidence measure and 7 clinicians completed the acceptability measure. We found a statistically significant increase in overall confidence (mean increase of 0.5, SD 0.6; P=.03). The largest increase in confidence was in helping families with reconciliation and goodbye (mean 1.4, SD 1.5; P=.04). The majority of clinicians agreed that the format was simple (6/7, 86%) and easy to use (6/7, 86%). Clinicians felt that the telehealth SICP was effective in understanding their patients’ values about end-of-life care (7/7, 100%). A total of three qualitative themes emerged: (1) the telehealth SICP deepened relationships and renewed trust; (2) each telehealth SICP visit felt unique and personal in a positive way; and (3) uninterrupted, unrushed time optimized the visit experience. ConclusionsThe telehealth SICP increased confidence in having serious illness conversations while deepening patient-clinician relationships. Trial RegistrationClinicalTrials.gov NCT04745676; https://www.clinicaltrials.gov/study/NCT04745676

Published

2024

11. Technical trick: buttress plate fixation of comminuted capitellum fractures with combined suture repair of the lateral ulnar collateral ligament

Author

Urvi J. Patel, MD, MS, Akhil Dondapati, MD, Thomas Carroll, MD, and Sandeep Soin, MD

Subjects

Capitellum fracture, Lateral ulnar collateral ligament repair, Buttress plating, Lateral column repair, Elbow, Distal humerus, Surgery, RD1-811

Published

2023

12. Histone methyltransferase MMSET/NSD2 is essential for generation of B1 cell compartment in mice

Author

Eugene Rudensky, Jonas Marcello, Rabinder Kumar Prinjha, Annette Becker, Natarajan V. Bahnu, Brad R. Rosenberg, Benjamin A. Garcia, Alexander Tarakhovsky, Thomas Carrol, Vyacheslav Yurchenko, and Marc-Werner Dobenecker

Subjects

B-1 cell, Histone H3, medicine.anatomical_structure, biology, Histone methyltransferase, Cell, Humoral immunity, medicine, biology.protein, Epigenetics, Antibody, B cell, Cell biology

Abstract

Humoral immunity in mice and man relies on the function of two developmentally and functionally distinct B cell subsets - B1 and B2 cells. While B2 cells are responsible for most of the adaptive response to environmental antigens, B1 cells, which are comprised of phenotypically distinct B1a and B1b cells, are carriers of the innate humoral immunity that relies on production of poly-reactive and low affinity antibodies. The molecular mechanism of B cell specification into different subsets is not well established. Here we identified lysine methyltransferase MMSET/NSD2 as a critical regulator of the B1 cell population. We show that NSD2 deficiency in B cell precursors prevents generation of the B1 cell compartment, while having a minor impact on B2 cells. Our data revealed MMSET/NSD2, which catalyzes histone H3 lysine 36 di-methylation, as the first in class epigenetic master regulator of a major B cell lineage in mice.

Published

2019

13. Blood transcriptomic signatures associated with molecular changes in the brain and clinical outcomes in Parkinson’s disease

Author

Krithi Irmady, Caryn R. Hale, Rizwana Qadri, John Fak, Sitsandziwe Simelane, Thomas Carroll, Serge Przedborski, and Robert B. Darnell

Subjects

Science

Abstract

Abstract The ability to use blood to predict the outcomes of Parkinson’s disease, including disease progression and cognitive and motor complications, would be of significant clinical value. We undertook bulk RNA sequencing from the caudate and putamen of postmortem Parkinson’s disease (n = 35) and control (n = 40) striatum, and compared molecular profiles with clinical features and bulk RNA sequencing data obtained from antemortem peripheral blood. Cognitive and motor complications of Parkinson’s disease were associated with molecular changes in the caudate (stress response) and putamen (endothelial pathways) respectively. Later and earlier-onset Parkinson’s disease were molecularly distinct, and disease duration was associated with changes in caudate (oligodendrocyte development) and putamen (cellular senescence), respectively. Transcriptome patterns in the postmortem Parkinson’s disease brain were also evident in antemortem peripheral blood, and correlated with clinical features of the disease. Together, these findings identify molecular signatures in Parkinson’s disease patients’ brain and blood of potential pathophysiologic and prognostic importance.

Published

2023

14. Coevolution of the CDCA7-HELLS ICF-related nucleosome remodeling complex and DNA methyltransferases

Author

Hironori Funabiki, Isabel E Wassing, Qingyuan Jia, Ji-Dung Luo, and Thomas Carroll

Subjects

DNA methylation, ICF syndrome, nucleosome remodeler, coevolution, Medicine, Science, Biology (General), QH301-705.5

Abstract

5-Methylcytosine (5mC) and DNA methyltransferases (DNMTs) are broadly conserved in eukaryotes but are also frequently lost during evolution. The mammalian SNF2 family ATPase HELLS and its plant ortholog DDM1 are critical for maintaining 5mC. Mutations in HELLS, its activator CDCA7, and the de novo DNA methyltransferase DNMT3B, cause immunodeficiency-centromeric instability-facial anomalies (ICF) syndrome, a genetic disorder associated with the loss of DNA methylation. We here examine the coevolution of CDCA7, HELLS and DNMTs. While DNMT3, the maintenance DNA methyltransferase DNMT1, HELLS, and CDCA7 are all highly conserved in vertebrates and green plants, they are frequently co-lost in other evolutionary clades. The presence-absence patterns of these genes are not random; almost all CDCA7 harboring eukaryote species also have HELLS and DNMT1 (or another maintenance methyltransferase, DNMT5). Coevolution of presence-absence patterns (CoPAP) analysis in Ecdysozoa further indicates coevolutionary linkages among CDCA7, HELLS, DNMT1 and its activator UHRF1. We hypothesize that CDCA7 becomes dispensable in species that lost HELLS or DNA methylation, and/or the loss of CDCA7 triggers the replacement of DNA methylation by other chromatin regulation mechanisms. Our study suggests that a unique specialized role of CDCA7 in HELLS-dependent DNA methylation maintenance is broadly inherited from the last eukaryotic common ancestor.

Published

2023

15. Mindfulness in Catholic Primary Schools: An Irish Perspective

Author

Thomas Carroll

Subjects

mindfulness in schools, catholic primary education, wellbeing, Religions. Mythology. Rationalism, BL1-2790

Abstract

Irish Catholic primary education operates within a context increasingly marked by detraditionalisation and secularisation. As religious belief and identity recedes in Ireland, Catholic schools face challenges in enabling the children they serve to develop a personal relationship with God and nurturing their faith formation and development, an important element of the mission of the Catholic school. At the same time, mindfulness practice has grown exponentially in popularity across many sectors of society, including in Irish education. A growing body of research supports mindfulness practice in schools, citing benefits such as improved academic performance and enhanced wellbeing. This review examines the development of mindfulness practice in Irish Catholic primary schools. Curricular reform in primary education regarding the growing role of wellbeing is explored. The review also addresses opportunities and challenges to mindfulness practice in these schools.

Published

2023

16. 128 A single-arm pilot study of an adapted Serious Illness Care Program for older patients with acute myeloid leukemia and myelodysplastic syndromes

Author

Marissa LoCastro, Jason Mendler, Sally Norton, Rachelle Bernacki, Thomas Carroll, Heidi Klepin, Soroush Mortaz-Hedjri, Marielle Jensen-Battaglia, Jane Liesveld, Eric Huselton, Kristen O’Dwyer, Andrea Baran, Marie Flannery, Benzi Kluger, and Kah Poh Loh

Subjects

Medicine

Abstract

OBJECTIVES/GOALS: We adapted the Serious Illness Care Program (SICP), an evidence-based intervention designed to promote early serious illness conversation, to be delivered via telehealth for older patients with acute myeloid leukemia and myelodysplastic syndromes. The purpose of this study is to assess the feasibility and usability of the adapted intervention. METHODS/STUDY POPULATION: We are conducting a single-arm pilot study of an adapted SICP that is delivered via telehealth for older patients with AML or MDS (>=60 years) and their caregivers (if available). The adapted SICP includes: 1) Patient preparation pamphlet: sent to patient prior the visit with their clinician, 2) Geriatric assessment: completed by study team and provided to clinician prior to their visit with the patient, 3) A 30-60 minute telehealth visit with their primary oncologist or oncology advance practitioner, 4) Serious Illness Conversation Guide (SICG): used by the clinician during the visit to elicit patient values, 5) Family guide: provided to patient following their visit to help patient’s share their values with their family, 6) Electronic medical record note template for clinicians to document their visit the patient. RESULTS/ANTICIPATED RESULTS: We hypothesize that the adapted SICP intervention will be feasible and usable. We will assess feasibility based on retention rate (percent of patients who consent and complete the visit); >80% is considered feasible. Usability will be assessed using the telehealth usability questionnaire; an average score of >5 is considered usable. Other measures include psychological health, advance care planning engagement, quality of life, and disease understanding. We plan to enroll 20 patients in this study. To date, 11 patients have consented to participate, 10 patients have scheduled SICP visits, 9 patients have completed their visits, 7 patients have completed post-intervention qualitative interviews, and 4 patients have completed post-intervention surveys. DISCUSSION/SIGNIFICANCE: The adapted telehealth-based SICP may promote early serious illness conversation, patient-reported outcomes, and end-of-life experience for older patients with AML and MDS. Results from this study will be used to inform development of clinical trials testing the impact of the adapted SICP on patient- and caregiver-reported outcomes.

Published

2023

17. Resilient Control Systems—Basis, Benchmarking and Benefit

Author

Craig Rieger, Kevin Schultz, Thomas Carroll, and Timothy McJunkin

Subjects

Resilience, control, cognitive, cyber, infrastructure, metrics, Electrical engineering. Electronics. Nuclear engineering, TK1-9971

Abstract

Because the research area of resilient control systems was pioneered during the last decade, the basis and benchmarking of resilience have continued to mature to achieve what has long been understood as the ultimate benefit of resilience. However, the automation “ship” has long since sailed on society’s dependence on digital control systems as the basis for all our industries and even the appliances in our homes. While these systems have been in general very reliable and provided for many human and operational efficiencies, the designs were not built on a framework that recognizes and adapts to potential debilitating failures from events such as cyber-attack. In this review, we cover a rapidly maturing framework based upon a disturbance and impact resilience evaluation process that considers both the methodologies for assessing resilience and also how key design principals must be applied within distributed control systems to achieve resilience.

Published

2021

18. Independence of HIF1a and androgen signaling pathways in prostate cancer

Author

Maxine G. B. Tran, Becky A. S. Bibby, Lingjian Yang, Franklin Lo, Anne Y. Warren, Deepa Shukla, Michelle Osborne, James Hadfield, Thomas Carroll, Rory Stark, Helen Scott, Antonio Ramos-Montoya, Charlie Massie, Patrick Maxwell, Catharine M. L. West, Ian G. Mills, and David E. Neal

Subjects

Prostate cancer, Androgen signaling, HIF1a signaling, Hypoxia, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282

Abstract

Abstract Background Therapeutic targeting of the androgen signaling pathway is a mainstay treatment for prostate cancer. Although initially effective, resistance to androgen targeted therapies develops followed by disease progression to castrate-resistant prostate cancer (CRPC). Hypoxia and HIF1a have been implicated in the development of resistance to androgen targeted therapies and progression to CRCP. The interplay between the androgen and hypoxia/HIF1a signaling axes was investigated. Methods In vitro stable expression of HIF1a was established in the LNCaP cell line by physiological induction or retroviral transduction. Tumor xenografts with stable expression of HIF1a were established in castrated and non-castrated mouse models. Gene expression analysis identified transcriptional changes in response to androgen treatment, hypoxia and HIF1a. The binding sites of the AR and HIF transcription factors were identified using ChIP-seq. Results Androgen and HIF1a signaling promoted proliferation in vitro and enhanced tumor growth in vivo. The stable expression of HIF1a in vivo restored tumor growth in the absence of endogenous androgens. Hypoxia reduced AR binding sites whereas HIF binding sites were increased with androgen treatment under hypoxia. Gene expression analysis identified seven genes that were upregulated both by AR and HIF1a, of which six were prognostic. Conclusions The oncogenic AR, hypoxia and HIF1a pathways support prostate cancer development through independent signaling pathways and transcriptomic profiles. AR and hypoxia/HIF1a signaling pathways independently promote prostate cancer progression and therapeutic targeting of both pathways simultaneously is warranted.

Published

2020

19. UK Chiari 1 Study: protocol for a prospective, observational, multicentre study

Author

Joseph Merola, Julie Woodfield, Linda D’Antona, Richard Edwards, Jothy Kandasamy, Paul Leach, Mano Shanmuganathan, Saurabh Sinha, Dominic Thompson, Lewis Thorne, Ahmed Toma, Shungu Ushewokunze, Laurence Watkins, James Stewart, Angelos G Kolias, Jayaratnam Jayamohan, Pasquale Gallo, Navneet Singh, Ashwin Kumaria, Rhannon Lobo, Marianne Hare, Louise Young, Ardalan Zolnourian, Rory J Piper, Daniel Thompson, Greg James, Georgios Tsermoulas, Rosa Sun, William B Lo, Wai Cheong Soon, Babar Vaqas, Muhammad Kamal, Fardad T Afshari, Edward W Dyson, Rodney Laing, Aabir Chakraborty, Adrian Casey, Adriana Baritchii, Alexandros Vyziotis, Ali Nader-Sephai, Alistair Jenkins, Amin Andalib, Anan Shtaya, Andrew Alalade, Andrew Brodbelt, Arup Ray, Asfand Baig Mirza, Aswin Chari, Barrie White, Benedetta Pettorini, Chandrasekaran Kaliaperumal, Danyal Khan, Dardis Ronan, David Choi, David Rowland, Edward Jerome St George, Eleni Maratos, Grainne McKenna, Hani Marcus, Hasan Asif, Hugo Layard Horsfall, Ian Kamaly-Asl, Ibrahim Jalloh, Jawad Naushahi, Joe M Das, John Duddy, Jonathan Funnell, Justyna Ekert, Kevin Tsang, Lizkerry Odeh, Makinah Haq, Mansoor Foroughi, Mark Nowell, Matthew Boissaud-Cooke, Melissa Gough, Menaka Paranathala, Micaela Uberti, Michael Cearns, Milan Makwana, Milo Hollingworth, Ming Yao Chong, Musa China, Nadia Salloum, Nicholas Haden, Nikolaos Tzerakis, Oscar MacCormac, Peter McGarrity, Rudrajit Kanjilal, Ryan Waters, Saeed Kayhanian, Samuel Jeffery, Setthasorn Zhi Yang Ooi, Shabin Joshi, Shady Elsayed, Shafqat Bukhari, Shailendra Magdum, Siddharth Sinha, Simon Lammy, Stana Bojanic, Stewart Griffiths, Teresa Scott, Thomas Carroll, Vasileios Raptopoulos, Vivek Josan, Yasir Chowdhury, and Zubair Tahir

Subjects

Medicine

Abstract

Introduction Chiari 1 malformation (CM1) is a structural abnormality of the hindbrain characterised by the descent of the cerebellar tonsils through the foramen magnum. The management of patients with CM1 remains contentious since there are currently no UK or international guidelines for clinicians. We therefore propose a collaborative, prospective, multicentre study on the investigation, management and outcome of CM1 in the UK: the UK Chiari 1 Study (UKC1S). Our primary objective is to determine the health-related quality of life (HRQoL) in patients with a new diagnosis of CM1 managed either conservatively or surgically at 12 months of follow-up. We also aim to: (A) determine HRQoL 12 months following surgery; (B) measure complications 12 months following surgery; (C) determine the natural history of patients with CM1 treated conservatively without surgery; (D) determine the radiological correlates of presenting symptoms, signs and outcomes; and (E) determine the scope and variation within UK practice in referral patterns, patient pathways, investigations and surgical decisions.Methods and analysis The UKC1S will be a prospective, multicentre and observational study that will follow the British Neurosurgical Trainee Research Collaborative model of collaborative research. Patients will be recruited after attending their first neurosurgical outpatient clinic appointment. Follow-up data will be collected from all patients at 12 months from baseline regardless of whether they are treated surgically or not. A further 12-month postoperative follow-up timepoint will be added for patients treated with decompressive surgery. The study is expected to last three years.Ethics and dissemination The UKC1S received a favourable ethical opinion from the East Midlands Leicester South Research Ethics Committee (REC reference: 20/EM/0053; IRAS 269739) and the Health Research Authority. The results of the study will be published in peer-reviewed medical journals, presented at scientific conferences, shared with collaborating sites and shared with participant patients if they so wish.

Published

2021

20. m6A RNA methylation impacts fate choices during skin morphogenesis

Author

Linghe Xi, Thomas Carroll, Irina Matos, Ji-Dung Luo, Lisa Polak, H Amalia Pasolli, Samie R Jaffrey, and Elaine Fuchs

Subjects

N6-methyladenosine, skin epithelial morphogenesis, lineage specification, miCLIP, RNA metabolism, Medicine, Science, Biology (General), QH301-705.5

Abstract

N6-methyladenosine is the most prominent RNA modification in mammals. Here, we study mouse skin embryogenesis to tackle m6A’s functions and physiological importance. We first landscape the m6A modifications on skin epithelial progenitor mRNAs. Contrasting with in vivo ribosomal profiling, we unearth a correlation between m6A modification in coding sequences and enhanced translation, particularly of key morphogenetic signaling pathways. Tapping physiological relevance, we show that m6A loss profoundly alters these cues and perturbs cellular fate choices and tissue architecture in all skin lineages. By single-cell transcriptomics and bioinformatics, both signaling and canonical translation pathways show significant downregulation after m6A loss. Interestingly, however, many highly m6A-modified mRNAs are markedly upregulated upon m6A loss, and they encode RNA-methylation, RNA-processing and RNA-metabolism factors. Together, our findings suggest that m6A functions to enhance translation of key morphogenetic regulators, while also destabilizing sentinel mRNAs that are primed to activate rescue pathways when m6A levels drop.

Published

2020

21. Epileptic Seizure Prediction Using Big Data and Deep Learning: Toward a Mobile System

Author

Isabell Kiral-Kornek, Subhrajit Roy, Ewan Nurse, Benjamin Mashford, Philippa Karoly, Thomas Carroll, Daniel Payne, Susmita Saha, Steven Baldassano, Terence O'Brien, David Grayden, Mark Cook, Dean Freestone, and Stefan Harrer

Subjects

Epilepsy, Seizure prediction, Artificial intelligence, Deep neural networks, Mobile medical devices, Precision medicine, Medicine, Medicine (General), R5-920

Abstract

Background: Seizure prediction can increase independence and allow preventative treatment for patients with epilepsy. We present a proof-of-concept for a seizure prediction system that is accurate, fully automated, patient-specific, and tunable to an individual's needs. Methods: Intracranial electroencephalography (iEEG) data of ten patients obtained from a seizure advisory system were analyzed as part of a pseudoprospective seizure prediction study. First, a deep learning classifier was trained to distinguish between preictal and interictal signals. Second, classifier performance was tested on held-out iEEG data from all patients and benchmarked against the performance of a random predictor. Third, the prediction system was tuned so sensitivity or time in warning could be prioritized by the patient. Finally, a demonstration of the feasibility of deployment of the prediction system onto an ultra-low power neuromorphic chip for autonomous operation on a wearable device is provided. Results: The prediction system achieved mean sensitivity of 69% and mean time in warning of 27%, significantly surpassing an equivalent random predictor for all patients by 42%. Conclusion: This study demonstrates that deep learning in combination with neuromorphic hardware can provide the basis for a wearable, real-time, always-on, patient-specific seizure warning system with low power consumption and reliable long-term performance.

Published

2018

22. Feedforward regulation of Myc coordinates lineage-specific with housekeeping gene expression during B cell progenitor cell differentiation.

Author

Isabel Ferreirós-Vidal, Thomas Carroll, Tianyi Zhang, Vincenzo Lagani, Ricardo N Ramirez, Elizabeth Ing-Simmons, Alicia G Gómez-Valadés, Lee Cooper, Ziwei Liang, Georgios Papoutsoglou, Gopuraja Dharmalingam, Ya Guo, Sonia Tarazona, Sunjay J Fernandes, Peri Noori, Gilad Silberberg, Amanda G Fisher, Ioannis Tsamardinos, Ali Mortazavi, Boris Lenhard, Ana Conesa, Jesper Tegner, Matthias Merkenschlager, and David Gomez-Cabrero

Subjects

Biology (General), QH301-705.5

Abstract

The differentiation of self-renewing progenitor cells requires not only the regulation of lineage- and developmental stage-specific genes but also the coordinated adaptation of housekeeping functions from a metabolically active, proliferative state toward quiescence. How metabolic and cell-cycle states are coordinated with the regulation of cell type-specific genes is an important question, because dissociation between differentiation, cell cycle, and metabolic states is a hallmark of cancer. Here, we use a model system to systematically identify key transcriptional regulators of Ikaros-dependent B cell-progenitor differentiation. We find that the coordinated regulation of housekeeping functions and tissue-specific gene expression requires a feedforward circuit whereby Ikaros down-regulates the expression of Myc. Our findings show how coordination between differentiation and housekeeping states can be achieved by interconnected regulators. Similar principles likely coordinate differentiation and housekeeping functions during progenitor cell differentiation in other cell lineages.

Published

2019

23. MicroRNAs of the miR-290–295 Family Maintain Bivalency in Mouse Embryonic Stem Cells

Author

Bryony Graham, Antoine Marcais, Gopuraja Dharmalingam, Thomas Carroll, Chryssa Kanellopoulou, Johannes Graumann, Tatyana B. Nesterova, Anna Bermange, Pijus Brazauskas, Barbara Xella, Skirmantas Kriaucionis, Douglas R. Higgs, Neil Brockdorff, Matthias Mann, Amanda G. Fisher, and Matthias Merkenschlager

Subjects

Medicine (General), R5-920, Biology (General), QH301-705.5

Abstract

Numerous developmentally regulated genes in mouse embryonic stem cells (ESCs) are marked by both active (H3K4me3)- and polycomb group (PcG)-mediated repressive (H3K27me3) histone modifications. This bivalent state is thought to be important for transcriptional poising, but the mechanisms that regulate bivalent genes and the bivalent state remain incompletely understood. Examining the contribution of microRNAs (miRNAs) to the regulation of bivalent genes, we found that the miRNA biogenesis enzyme DICER was required for the binding of the PRC2 core components EZH2 and SUZ12, and for the presence of the PRC2-mediated histone modification H3K27me3 at many bivalent genes. Genes that lost bivalency were preferentially upregulated at the mRNA and protein levels. Finally, reconstituting Dicer-deficient ESCs with ESC miRNAs restored bivalent gene repression and PRC2 binding at formerly bivalent genes. Therefore, miRNAs regulate bivalent genes and the bivalent state itself.

Published

2016

24. WNT signaling memory is required for ACTIVIN to function as a morphogen in human gastruloids

Author

Anna Yoney, Fred Etoc, Albert Ruzo, Thomas Carroll, Jakob J Metzger, Iain Martyn, Shu Li, Christoph Kirst, Eric D Siggia, and Ali H Brivanlou

Subjects

Pluripotent stem cells, mesendoderm differentiation, micropatterns, SMAD signaling, live imaging, WNT, Medicine, Science, Biology (General), QH301-705.5

Abstract

Self-organization of discrete fates in human gastruloids is mediated by a hierarchy of signaling pathways. How these pathways are integrated in time, and whether cells maintain a memory of their signaling history remains obscure. Here, we dissect the temporal integration of two key pathways, WNT and ACTIVIN, which along with BMP control gastrulation. CRISPR/Cas9-engineered live reporters of SMAD1, 2 and 4 demonstrate that in contrast to the stable signaling by SMAD1, signaling and transcriptional response by SMAD2 is transient, and while necessary for pluripotency, it is insufficient for differentiation. Pre-exposure to WNT, however, endows cells with the competence to respond to graded levels of ACTIVIN, which induces differentiation without changing SMAD2 dynamics. This cellular memory of WNT signaling is necessary for ACTIVIN morphogen activity. A re-evaluation of the evidence gathered over decades in model systems, re-enforces our conclusions and points to an evolutionarily conserved mechanism.

Published

2018

25. Jarid2 Coordinates Nanog Expression and PCP/Wnt Signaling Required for Efficient ESC Differentiation and Early Embryo Development

Author

David Landeira, Hakan Bagci, Andrzej R. Malinowski, Karen E. Brown, Jorge Soza-Ried, Amelie Feytout, Zoe Webster, Elodie Ndjetehe, Irene Cantone, Helena G. Asenjo, Neil Brockdorff, Thomas Carroll, Matthias Merkenschlager, and Amanda G. Fisher

Subjects

Biology (General), QH301-705.5

Abstract

Jarid2 is part of the Polycomb Repressor complex 2 (PRC2) responsible for genome-wide H3K27me3 deposition. Unlike other PRC2-deficient embryonic stem cells (ESCs), however, Jarid2-deficient ESCs show a severe differentiation block, altered colony morphology, and distinctive patterns of deregulated gene expression. Here, we show that Jarid2−/− ESCs express constitutively high levels of Nanog but reduced PCP signaling components Wnt9a, Prickle1, and Fzd2 and lowered β-catenin activity. Depletion of Wnt9a/Prickle1/Fzd2 from wild-type ESCs or overexpression of Nanog largely phenocopies these cellular defects. Co-culture of Jarid2−/− with wild-type ESCs restores variable Nanog expression and β-catenin activity and can partially rescue the differentiation block of mutant cells. In addition, we show that ESCs lacking Jarid2 or Wnt9a/Prickle1/Fzd2 or overexpressing Nanog induce multiple ICM formation when injected into normal E3.5 blastocysts. These data describe a previously unrecognized role for Jarid2 in regulating a core pluripotency and Wnt/PCP signaling circuit that is important for ESC differentiation and for pre-implantation development.

Published

2015

26. A high-resolution map of transcriptional repression

Author

Ziwei Liang, Karen E Brown, Thomas Carroll, Benjamin Taylor, Isabel Ferreirós Vidal, Brian Hendrich, David Rueda, Amanda G Fisher, and Matthias Merkenschlager

Subjects

transcriptional repression, Ikaros, B cell, gene silencing, corepressor complex, Medicine, Science, Biology (General), QH301-705.5

Abstract

Turning genes on and off is essential for development and homeostasis, yet little is known about the sequence and causal role of chromatin state changes during the repression of active genes. This is surprising, as defective gene silencing underlies developmental abnormalities and disease. Here we delineate the sequence and functional contribution of transcriptional repression mechanisms at high temporal resolution. Inducible entry of the NuRD-interacting transcriptional regulator Ikaros into mouse pre-B cell nuclei triggered immediate binding to target gene promoters. Rapid RNAP2 eviction, transcriptional shutdown, nucleosome invasion, and reduced transcriptional activator binding required chromatin remodeling by NuRD-associated Mi2beta/CHD4, but were independent of HDAC activity. Histone deacetylation occurred after transcriptional repression. Nevertheless, HDAC activity contributed to stable gene silencing. Hence, high resolution mapping of transcriptional repression reveals complex and interdependent mechanisms that underpin rapid transitions between transcriptional states, and elucidates the temporal order, functional role and mechanistic separation of NuRD-associated enzymatic activities.

Published

2017

27. HES6 drives a critical AR transcriptional programme to induce castration‐resistant prostate cancer through activation of an E2F1‐mediated cell cycle network

Author

Antonio Ramos‐Montoya, Alastair D Lamb, Roslin Russell, Thomas Carroll, Sarah Jurmeister, Nuria Galeano‐Dalmau, Charlie E Massie, Joan Boren, Helene Bon, Vasiliki Theodorou, Maria Vias, Greg L Shaw, Naomi L Sharma, Helen Ross‐Adams, Helen E Scott, Sarah L Vowler, William J Howat, Anne Y Warren, Richard F Wooster, Ian G Mills, and David E Neal

Subjects

androgen receptor, castrate‐resistant prostate cancer, gene expression signature, HES6, PLK1, Medicine (General), R5-920, Genetics, QH426-470

Abstract

Abstract Castrate‐resistant prostate cancer (CRPC) is poorly characterized and heterogeneous and while the androgen receptor (AR) is of singular importance, other factors such as c‐Myc and the E2F family also play a role in later stage disease. HES6 is a transcription co‐factor associated with stem cell characteristics in neural tissue. Here we show that HES6 is up‐regulated in aggressive human prostate cancer and drives castration‐resistant tumour growth in the absence of ligand binding by enhancing the transcriptional activity of the AR, which is preferentially directed to a regulatory network enriched for transcription factors such as E2F1. In the clinical setting, we have uncovered a HES6‐associated signature that predicts poor outcome in prostate cancer, which can be pharmacologically targeted by inhibition of PLK1 with restoration of sensitivity to castration. We have therefore shown for the first time the critical role of HES6 in the development of CRPC and identified its potential in patient‐specific therapeutic strategies.

Published

2014

28. microRNAs regulate cell-to-cell variability of endogenous target gene expression in developing mouse thymocytes.

Author

Rory Blevins, Ludovica Bruno, Thomas Carroll, James Elliott, Antoine Marcais, Christina Loh, Arnulf Hertweck, Azra Krek, Nikolaus Rajewsky, Chang-Zheng Chen, Amanda G Fisher, and Matthias Merkenschlager

Subjects

Genetics, QH426-470

Abstract

The development and homeostasis of multicellular organisms relies on gene regulation within individual constituent cells. Gene regulatory circuits that increase the robustness of gene expression frequently incorporate microRNAs as post-transcriptional regulators. Computational approaches, synthetic gene circuits and observations in model organisms predict that the co-regulation of microRNAs and their target mRNAs can reduce cell-to-cell variability in the expression of target genes. However, whether microRNAs directly regulate variability of endogenous gene expression remains to be tested in mammalian cells. Here we use quantitative flow cytometry to show that microRNAs impact on cell-to-cell variability of protein expression in developing mouse thymocytes. We find two distinct mechanisms that control variation in the activation-induced expression of the microRNA target CD69. First, the expression of miR-17 and miR-20a, two members of the miR-17-92 cluster, is co-regulated with the target mRNA Cd69 to form an activation-induced incoherent feed-forward loop. Another microRNA, miR-181a, acts at least in part upstream of the target mRNA Cd69 to modulate cellular responses to activation. The ability of microRNAs to render gene expression more uniform across mammalian cell populations may be important for normal development and for disease.

Published

2015

29. Gata3 acts downstream of beta-catenin signaling to prevent ectopic metanephric kidney induction.

Author

David Grote, Sami Kamel Boualia, Abdallah Souabni, Calli Merkel, Xuan Chi, Frank Costantini, Thomas Carroll, and Maxime Bouchard

Subjects

Genetics, QH426-470

Abstract

Metanephric kidney induction critically depends on mesenchymal-epithelial interactions in the caudal region of the nephric (or Wolffian) duct. Central to this process, GDNF secreted from the metanephric mesenchyme induces ureter budding by activating the Ret receptor expressed in the nephric duct epithelium. A failure to regulate this pathway is believed to be responsible for a large proportion of the developmental anomalies affecting the urogenital system. Here, we show that the nephric duct-specific inactivation of the transcription factor gene Gata3 leads to massive ectopic ureter budding. This results in a spectrum of urogenital malformations including kidney adysplasia, duplex systems, and hydroureter, as well as vas deferens hyperplasia and uterine agenesis. The variability of developmental defects is reminiscent of the congenital anomalies of the kidney and urinary tract (CAKUT) observed in human. We show that Gata3 inactivation causes premature nephric duct cell differentiation and loss of Ret receptor gene expression. These changes ultimately affect nephric duct epithelium homeostasis, leading to ectopic budding of interspersed cells still expressing the Ret receptor. Importantly, the formation of these ectopic buds requires both GDNF/Ret and Fgf signaling activities. We further identify Gata3 as a central mediator of beta-catenin function in the nephric duct and demonstrate that the beta-catenin/Gata3 pathway prevents premature cell differentiation independently of its role in regulating Ret expression. Together, these results establish a genetic cascade in which Gata3 acts downstream of beta-catenin, but upstream of Ret, to prevent ectopic ureter budding and premature cell differentiation in the nephric duct.

Published

2008