Your search keyword '"Christopher C. Goodnow"' showing total 23 results

1. Broadly neutralizing SARS-CoV-2 antibodies through epitope-based selection from convalescent patients

Author

Romain Rouet, Jake Y. Henry, Matt D. Johansen, Meghna Sobti, Harikrishnan Balachandran, David B. Langley, Gregory J. Walker, Helen Lenthall, Jennifer Jackson, Stephanie Ubiparipovic, Ohan Mazigi, Peter Schofield, Deborah L. Burnett, Simon H. J. Brown, Marianne Martinello, Bernard Hudson, Nicole Gilroy, Jeffrey J. Post, Anthony Kelleher, Hans-Martin Jäck, Christopher C. Goodnow, Stuart G. Turville, William D. Rawlinson, Rowena A. Bull, Alastair G. Stewart, Philip M. Hansbro, and Daniel Christ

Subjects

Science

Abstract

Here, Rouet et al. present a strategy for the identification of broadly neutralising antibodies against SARS-CoV-2 receptor binding domain from peripheral blood mononuclear cells of convalescent patients, which enabled the identification of a new class 6 epitope.

Published

2023

2. Activation of the viral sensor oligoadenylate synthetase 2 (Oas2) prevents pregnancy-driven mammary cancer metastases

Author

Wing-Hong Jonathan Ho, Andrew M. K. Law, Etienne Masle-Farquhar, Lesley E. Castillo, Amanda Mawson, Moira K. O’Bryan, Christopher C. Goodnow, David Gallego-Ortega, Samantha R. Oakes, and Christopher J. Ormandy

Subjects

OAS2, Interferon, Immunotherapy, Breast, Mammary, Cancer, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282

Abstract

Abstract Background The interferon response can influence the primary and metastatic activity of breast cancers and can interact with checkpoint immunotherapy to modulate its effects. Using N-ethyl-N-nitrosourea mutagenesis, we found a mouse with an activating mutation in oligoadenylate synthetase 2 (Oas2), a sensor of viral double stranded RNA, that resulted in an interferon response and prevented lactation in otherwise healthy mice. Methods To determine if sole activation of Oas2 could alter the course of mammary cancer, we combined the Oas2 mutation with the MMTV-PyMT oncogene model of breast cancer and examined disease progression and the effects of checkpoint immunotherapy using Kaplan–Meier survival analysis with immunohistochemistry and flow cytometry. Results Oas2 mutation prevented pregnancy from increasing metastases to lung. Checkpoint immunotherapy with antibodies against programmed death-ligand 1 was more effective when the Oas2 mutation was present. Conclusions These data establish OAS2 as a therapeutic target for agents designed to reduce metastases and increase the effectiveness of checkpoint immunotherapy.

Published

2022

3. Antigen-driven EGR2 expression is required for exhausted CD8+ T cell stability and maintenance

Author

Mayura V. Wagle, Stephin J. Vervoort, Madison J. Kelly, Willem Van Der Byl, Timothy J. Peters, Ben P. Martin, Luciano G. Martelotto, Simone Nüssing, Kelly M. Ramsbottom, James R. Torpy, Deborah Knight, Sinead Reading, Kevin Thia, Lisa A. Miosge, Debbie R. Howard, Renee Gloury, Sarah S. Gabriel, Daniel T. Utzschneider, Jane Oliaro, Jonathan D. Powell, Fabio Luciani, Joseph A. Trapani, Ricky W. Johnstone, Axel Kallies, Christopher C. Goodnow, and Ian A. Parish

Subjects

Science

Abstract

Exhausted T cells arise when chronic activation triggers functional defects. Here the authors show that chronic antigenic stimulation in both tumour and infection models induces the expression of EGR2, which drives and stabilises exhausted cell epigenetic and transcriptional identity.

Published

2021

4. High-throughput targeted long-read single cell sequencing reveals the clonal and transcriptional landscape of lymphocytes

Author

Mandeep Singh, Ghamdan Al-Eryani, Shaun Carswell, James M. Ferguson, James Blackburn, Kirston Barton, Daniel Roden, Fabio Luciani, Tri Giang Phan, Simon Junankar, Katherine Jackson, Christopher C. Goodnow, Martin A. Smith, and Alexander Swarbrick

Subjects

Science

Abstract

Single cell RNA sequencing generates short reads from one end of a template, providing incomplete transcript coverage and limiting identification of diverse sequences such as antigen receptors. Here the authors combine long read nanopore sequencing with short read profiling of barcoded libraries to generate full-length antigen receptor sequences.

Published

2019

5. Potent SARS-CoV-2 binding and neutralization through maturation of iconic SARS-CoV-1 antibodies

Author

Romain Rouet, Ohan Mazigi, Gregory J. Walker, David B. Langley, Meghna Sobti, Peter Schofield, Helen Lenthall, Jennifer Jackson, Stephanie Ubiparipovic, Jake Y. Henry, Arunasingam Abayasingam, Deborah Burnett, Anthony Kelleher, Robert Brink, Rowena A. Bull, Stuart Turville, Alastair G. Stewart, Christopher C. Goodnow, William D. Rawlinson, and Daniel Christ

Subjects

Monoclonal antibodies, antibody maturation, antibody engineering, phage display, SARS-CoV-2, structural studies, Therapeutics. Pharmacology, RM1-950, Immunologic diseases. Allergy, RC581-607

Abstract

Antibodies against coronavirus spike protein potently protect against infection and disease, but whether such protection can be extended to variant coronaviruses is unclear. This is exemplified by a set of iconic and well-characterized monoclonal antibodies developed after the 2003 SARS outbreak, including mAbs m396, CR3022, CR3014 and 80R, which potently neutralize SARS-CoV-1, but not SARS-CoV-2. Here, we explore antibody engineering strategies to change and broaden their specificity, enabling nanomolar binding and potent neutralization of SARS-CoV-2. Intriguingly, while many of the matured clones maintained specificity of the parental antibody, new specificities were also observed, which was further confirmed by X-ray crystallography and cryo-electron microscopy, indicating that a limited set of VH antibody domains can give rise to variants targeting diverse epitopes, when paired with a diverse VL repertoire. Our findings open up over 15 years of antibody development efforts against SARS-CoV-1 to the SARS-CoV-2 field and outline general principles for the maturation of antibody specificity against emerging viruses.

Published

2021

6. The Ubiquitin Ligase Adaptor NDFIP1 Selectively Enforces a CD8+ T Cell Tolerance Checkpoint to High-Dose Antigen

Author

Mayura V. Wagle, Julia M. Marchingo, Jason Howitt, Seong-Seng Tan, Christopher C. Goodnow, and Ian A. Parish

Subjects

Biology (General), QH301-705.5

Abstract

Summary: Escape from peripheral tolerance checkpoints that control cytotoxic CD8+ T cells is important for cancer immunotherapy and autoimmunity, but pathways enforcing these checkpoints are mostly uncharted. We reveal that the HECT-type ubiquitin ligase activator, NDFIP1, enforces a cell-intrinsic CD8+ T cell checkpoint that desensitizes TCR signaling during in vivo exposure to high antigen levels. Ndfip1-deficient OT-I CD8+ T cells responding to high exogenous tolerogenic antigen doses that normally induce anergy aberrantly expanded and differentiated into effector cells that could precipitate autoimmune diabetes in RIP-OVAhi mice. In contrast, NDFIP1 was dispensable for peripheral deletion to low-dose exogenous or pancreatic islet-derived antigen and had little impact upon effector responses to Listeria or acute LCMV infection. These data provide evidence that NDFIP1 mediates a CD8+ T cell tolerance checkpoint, with a different mechanism to CD4+ T cells, and indicates that CD8+ T cell deletion and anergy are molecularly separable checkpoints. : Ndfip1 restrains CD4+ T cell differentiation, but its role in CD8+ T cells is unclear. Wagle et al. show that Ndfip1 selectively enforces peripheral CD8+ T cell tolerance to abundant antigen while minimally affecting both CD8+ T cell tolerance to scarce antigen and effector expansion and differentiation during acute infection. Keywords: T cell, checkpoint, peripheral tolerance, autoimmunity, anergy, ubiquitin ligases, Ndfip1

Published

2018

7. Preponderance of CTLA4 Variation Associated With Autosomal Dominant Immune Dysregulation in the MYPPPY Motif

Author

Owen M. Siggs, Amanda Russell, Davinder Singh-Grewal, Melanie Wong, Pearl Chan, Maria E. Craig, Ted O'Loughlin, Michael Stormon, and Christopher C. Goodnow

Subjects

CTLA4, ipilimumab, CTLA-4, de novo variant, autoimmune hepatitis, abatacept, Immunologic diseases. Allergy, RC581-607

Abstract

One of the primary targets of immune checkpoint inhibition is the negative immune regulatory molecule CTLA-4. Immune-related adverse events are commonly observed following CTLA-4 inhibition in melanoma treatment, and a spectrum of these conditions are also observed in individuals with germline haploinsufficiency of CTLA4. Here we describe a heterozygous de novo missense variant of CTLA4 in a young girl with childhood-onset autoimmune hepatitis and polyarthritis, the latter responding to treatment with CTLA-4-Ig fusion protein. This variant lay within the highly conserved MYPPPY motif of CTLA-4: a critical structural determinant of ligand binding, which is also bound by the anti-CTLA-4 monoclonal antibody ipilimumab. Within the spectrum of CTLA4 variants reported, missense variants in the MYPPPY motif were overrepresented when compared to variants within a control population, highlighting the physiological importance of this motif in both the genetic and pharmacological regulation of autoimmunity and anti-tumor immunity.

Published

2019

8. CD45-mediated control of TCR tuning in naïve and memory CD8+ T cells

Author

Jae-Ho Cho, Hee-Ok Kim, Young-Jun Ju, Yoon-Chul Kye, Gil-Woo Lee, Sung-Woo Lee, Cheol-Heui Yun, Nunzio Bottini, Kylie Webster, Christopher C. Goodnow, Charles D. Surh, Cecile King, and Jonathan Sprent

Subjects

Science

Abstract

Naïve T cells establish self-tolerance via negative selection of cells with strong reactivity for self-peptide/MHC complexes, but undergo T-cell receptor (TCR) desensitisation when leaving the thymus. Here, Choet al.show that TCR desensitisation correlates with cell-surface density of the phosphatase CD45.

Published

2016

9. IgD attenuates the IgM-induced anergy response in transitional and mature B cells

Author

Zahra Sabouri, Samuel Perotti, Emily Spierings, Peter Humburg, Mehmet Yabas, Hannes Bergmann, Keisuke Horikawa, Carla Roots, Samantha Lambe, Clara Young, T. Dan Andrews, Matthew Field, Anselm Enders, Joanne H. Reed, and Christopher C. Goodnow

Subjects

Science

Abstract

Self-reactive B cells that are anergic express mainly IgD, yet the function of IgD is not clear. Here the authors analyse primary B cells from mice to show that IgD signalling attenuates self-antigen induced gene expression and promotes survival of anergic B cells that might go on to reactivate to foreign antigens and mutate away from self-reactivity.

Published

2016

10. DeepSNVMiner: a sequence analysis tool to detect emergent, rare mutations in subsets of cell populations

Author

T. Daniel Andrews, Yogesh Jeelall, Dipti Talaulikar, Christopher C. Goodnow, and Matthew A. Field

Subjects

NGS, Deep sequencing, Rare mutations, Variant detection, Medicine, Biology (General), QH301-705.5

Abstract

Background. Massively parallel sequencing technology is being used to sequence highly diverse populations of DNA such as that derived from heterogeneous cell mixtures containing both wild-type and disease-related states. At the core of such molecule tagging techniques is the tagging and identification of sequence reads derived from individual input DNA molecules, which must be first computationally disambiguated to generate read groups sharing common sequence tags, with each read group representing a single input DNA molecule. This disambiguation typically generates huge numbers of reads groups, each of which requires additional variant detection analysis steps to be run specific to each read group, thus representing a significant computational challenge. While sequencing technologies for producing these data are approaching maturity, the lack of available computational tools for analysing such heterogeneous sequence data represents an obstacle to the widespread adoption of this technology. Results. Using synthetic data we successfully detect unique variants at dilution levels of 1 in a 1,000,000 molecules, and find DeeepSNVMiner obtains significantly lower false positive and false negative rates compared to popular variant callers GATK, SAMTools, FreeBayes and LoFreq, particularly as the variant concentration levels decrease. In a dilution series with genomic DNA from two cells lines, we find DeepSNVMiner identifies a known somatic variant when present at concentrations of only 1 in 1,000 molecules in the input material, the lowest concentration amongst all variant callers tested. Conclusions. Here we present DeepSNVMiner; a tool to disambiguate tagged sequence groups and robustly identify sequence variants specific to subsets of starting DNA molecules that may indicate the presence of a disease. DeepSNVMiner is an automated workflow of custom sequence analysis utilities and open source tools able to differentiate somatic DNA variants from artefactual sequence variants that likely arose during DNA amplification. The workflow remains flexible such that it may be customised to variants of the data production protocol used, and supports reproducible analysis through detailed logging and reporting of results. DeepSNVMiner is available for academic non-commercial research purposes at https://github.com/mattmattmattmatt/DeepSNVMiner.

Published

2016

11. Loss-of-function of Fbxo10, encoding a post-translational regulator of BCL2 in lymphomas, has no discernible effect on BCL2 or B lymphocyte accumulation in mice.

Author

Etienne Masle-Farquhar, Amanda Russell, Yangguang Li, Fen Zhu, Lixin Rui, Robert Brink, and Christopher C Goodnow

Subjects

Medicine, Science

Abstract

Regulation of the anti-apoptotic BCL2 protein determines cell survival and is frequently abnormal in B cell lymphomas. An evolutionarily conserved post-translational mechanism for over-expression of BCL2 in human B cell lymphomas and the BCL2 paralogue CED-9 in Caenorhabditis elegans results from loss-of-function mutations in human FBXO10 and its C.elegans paralogue DRE-1, a BCL2/CED-9-binding subunit of the SKP-CULLIN-FBOX (SCF) ubiquitin ligase. Here, we tested the role of FBXO10 in BCL2 regulation by producing mice with two different CRISPR/Cas9-engineered Fbxo10 mutations: an Asp54Lys (E54K) missense mutation in the FBOX domain and a Cys55SerfsTer55 frameshift (fs) truncating mutation. Mice homozygous for either mutant allele were born at the expected Mendelian frequency and appeared normal in body weight and appearance as adults. Spleen B cells from homozygous mutant mice did not have increased BCL2 protein, nor were the numbers of mature B cells or germinal centre B cells increased as would be expected if BCL2 was increased. Other lymphocyte subsets that are also regulated by BCL2 levels also displayed no difference in frequency in homozygous Fbxo10 mutant mice. These results support one of two conclusions: either FBXO10 does not regulate BCL2 in mice, or it does so redundantly with other ubiquitin ligase complexes. Possible candidates for the latter include FBXO11 or ARTS-XIAP. The difference between the role of FBXO10 in regulating BCL2 protein levels in C. elegans and in human DLBCL, relative to single-gene deficient mouse leukocytes, should be further investigated.

Published

2021

12. A mutation in the viral sensor 2'-5'-oligoadenylate synthetase 2 causes failure of lactation.

Author

Samantha R Oakes, David Gallego-Ortega, Prudence M Stanford, Simon Junankar, Wendy Wing Yee Au, Zoya Kikhtyak, Anita von Korff, Claudio M Sergio, Andrew M K Law, Lesley E Castillo, Stephanie L Allerdice, Adelaide I J Young, Catherine Piggin, Belinda Whittle, Edward Bertram, Matthew J Naylor, Daniel L Roden, Jesse Donovan, Alexei Korennykh, Christopher C Goodnow, Moira K O'Bryan, and Christopher J Ormandy

Subjects

Genetics, QH426-470

Abstract

We identified a non-synonymous mutation in Oas2 (I405N), a sensor of viral double-stranded RNA, from an ENU-mutagenesis screen designed to discover new genes involved in mammary development. The mutation caused post-partum failure of lactation in healthy mice with otherwise normally developed mammary glands, characterized by greatly reduced milk protein synthesis coupled with epithelial cell death, inhibition of proliferation and a robust interferon response. Expression of mutant but not wild type Oas2 in cultured HC-11 or T47D mammary cells recapitulated the phenotypic and transcriptional effects observed in the mouse. The mutation activates the OAS2 pathway, demonstrated by a 34-fold increase in RNase L activity, and its effects were dependent on expression of RNase L and IRF7, proximal and distal pathway members. This is the first report of a viral recognition pathway regulating lactation.

Published

2017

13. Heterogeneity of Human Neutrophil CD177 Expression Results from CD177P1 Pseudogene Conversion.

Author

Zuopeng Wu, Rong Liang, Thomas Ohnesorg, Vicky Cho, Wesley Lam, Walter P Abhayaratna, Paul A Gatenby, Chandima Perera, Yafei Zhang, Belinda Whittle, Andrew Sinclair, Christopher C Goodnow, Matthew Field, T Daniel Andrews, and Matthew C Cook

Subjects

Genetics, QH426-470

Abstract

Most humans harbor both CD177neg and CD177pos neutrophils but 1-10% of people are CD177null, placing them at risk for formation of anti-neutrophil antibodies that can cause transfusion-related acute lung injury and neonatal alloimmune neutropenia. By deep sequencing the CD177 locus, we catalogued CD177 single nucleotide variants and identified a novel stop codon in CD177null individuals arising from a single base substitution in exon 7. This is not a mutation in CD177 itself, rather the CD177null phenotype arises when exon 7 of CD177 is supplied entirely by the CD177 pseudogene (CD177P1), which appears to have resulted from allelic gene conversion. In CD177 expressing individuals the CD177 locus contains both CD177P1 and CD177 sequences. The proportion of CD177hi neutrophils in the blood is a heritable trait. Abundance of CD177hi neutrophils correlates with homozygosity for CD177 reference allele, while heterozygosity for ectopic CD177P1 gene conversion correlates with increased CD177neg neutrophils, in which both CD177P1 partially incorporated allele and paired intact CD177 allele are transcribed. Human neutrophil heterogeneity for CD177 expression arises by ectopic allelic conversion. Resolution of the genetic basis of CD177null phenotype identifies a method for screening for individuals at risk of CD177 isoimmunisation.

Published

2016

14. Correction: HENMT1 and piRNA Stability Are Required for Adult Male Germ Cell Transposon Repression and to Define the Spermatogenic Program in the Mouse.

Author

Shu Ly Lim, Zhi Peng Qu, R Daniel Kortschak, David M Lawrence, Joel Geoghegan, Anna-Lena Hempfling, Martin Bergmann, Christopher C Goodnow, Christopher J Ormandy, Lee Wong, Jeff Mann, Hamish S Scott, Duangporn Jamsai, David L Adelson, and Moira K O'Bryan

Subjects

Genetics, QH426-470

Published

2015

15. HENMT1 and piRNA Stability Are Required for Adult Male Germ Cell Transposon Repression and to Define the Spermatogenic Program in the Mouse.

Author

Shu Ly Lim, Zhi Peng Qu, R Daniel Kortschak, David M Lawrence, Joel Geoghegan, Anna-Lena Hempfling, Martin Bergmann, Christopher C Goodnow, Christopher J Ormandy, Lee Wong, Jeff Mann, Hamish S Scott, Duangporn Jamsai, David L Adelson, and Moira K O'Bryan

Subjects

Genetics, QH426-470

Abstract

piRNAs are critical for transposable element (TE) repression and germ cell survival during the early phases of spermatogenesis, however, their role in adult germ cells and the relative importance of piRNA methylation is poorly defined in mammals. Using a mouse model of HEN methyltransferase 1 (HENMT1) loss-of-function, RNA-Seq and a range of RNA assays we show that HENMT1 is required for the 2' O-methylation of mammalian piRNAs. HENMT1 loss leads to piRNA instability, reduced piRNA bulk and length, and ultimately male sterility characterized by a germ cell arrest at the elongating germ cell phase of spermatogenesis. HENMT1 loss-of-function, and the concomitant loss of piRNAs, resulted in TE de-repression in adult meiotic and haploid germ cells, and the precocious, and selective, expression of many haploid-transcripts in meiotic cells. Precocious expression was associated with a more active chromatin state in meiotic cells, elevated levels of DNA damage and a catastrophic deregulation of the haploid germ cell gene expression. Collectively these results define a critical role for HENMT1 and piRNAs in the maintenance of TE repression in adult germ cells and setting the spermatogenic program.

Published

2015

16. Attenuation of AMPK signaling by ROQUIN promotes T follicular helper cell formation

Author

Roybel R Ramiscal, Ian A Parish, Robert S Lee-Young, Jeffrey J Babon, Julianna Blagih, Alvin Pratama, Jaime Martin, Naomi Hawley, Jean Y Cappello, Pablo F Nieto, Julia I Ellyard, Nadia J Kershaw, Rebecca A Sweet, Christopher C Goodnow, Russell G Jones, Mark A Febbraio, Carola G Vinuesa, and Vicki Athanasopoulos

Subjects

T follicular helper cell, germinal center, stress granule, ROQUIN, AMPK, mTOR, Medicine, Science, Biology (General), QH301-705.5

Abstract

T follicular helper cells (Tfh) are critical for the longevity and quality of antibody-mediated protection against infection. Yet few signaling pathways have been identified to be unique solely to Tfh development. ROQUIN is a post-transcriptional repressor of T cells, acting through its ROQ domain to destabilize mRNA targets important for Th1, Th17, and Tfh biology. Here, we report that ROQUIN has a paradoxical function on Tfh differentiation mediated by its RING domain: mice with a T cell-specific deletion of the ROQUIN RING domain have unchanged Th1, Th2, Th17, and Tregs during a T-dependent response but show a profoundly defective antigen-specific Tfh compartment. ROQUIN RING signaling directly antagonized the catalytic α1 subunit of adenosine monophosphate-activated protein kinase (AMPK), a central stress-responsive regulator of cellular metabolism and mTOR signaling, which is known to facilitate T-dependent humoral immunity. We therefore unexpectedly uncover a ROQUIN–AMPK metabolic signaling nexus essential for selectively promoting Tfh responses.

Published

2015

17. Rasgrp1 mutation increases naïve T-cell CD44 expression and drives mTOR-dependent accumulation of Helios+ T cells and autoantibodies

Author

Stephen R Daley, Kristen M Coakley, Daniel Y Hu, Katrina L Randall, Craig N Jenne, Andre Limnander, Darienne R Myers, Noelle K Polakos, Anselm Enders, Carla Roots, Bhavani Balakishnan, Lisa A Miosge, Geoff Sjollema, Edward M Bertram, Matthew A Field, Yunli Shao, T Daniel Andrews, Belinda Whittle, S Whitney Barnes, John R Walker, Jason G Cyster, Christopher C Goodnow, and Jeroen P Roose

Subjects

autoimmunity, signaling, RasGRP1, mTOR, T lymphocte, ENU mutant, Medicine, Science, Biology (General), QH301-705.5

Abstract

Missense variants are a major source of human genetic variation. Here we analyze a new mouse missense variant, Rasgrp1Anaef, with an ENU-mutated EF hand in the Rasgrp1 Ras guanine nucleotide exchange factor. Rasgrp1Anaef mice exhibit anti-nuclear autoantibodies and gradually accumulate a CD44hi Helios+ PD-1+ CD4+ T cell population that is dependent on B cells. Despite reduced Rasgrp1-Ras-ERK activation in vitro, thymocyte selection in Rasgrp1Anaef is mostly normal in vivo, although CD44 is overexpressed on naïve thymocytes and T cells in a T-cell-autonomous manner. We identify CD44 expression as a sensitive reporter of tonic mTOR-S6 kinase signaling through a novel mouse strain, chino, with a reduction-of-function mutation in Mtor. Elevated tonic mTOR-S6 signaling occurs in Rasgrp1Anaef naïve CD4+ T cells. CD44 expression, CD4+ T cell subset ratios and serum autoantibodies all returned to normal in Rasgrp1AnaefMtorchino double-mutant mice, demonstrating that increased mTOR activity is essential for the Rasgrp1Anaef T cell dysregulation.

Published

2013

18. RBM5 is a male germ cell splicing factor and is required for spermatid differentiation and male fertility.

Author

Moira K O'Bryan, Brett J Clark, Eileen A McLaughlin, Rebecca J D'Sylva, Liza O'Donnell, Jacqueline A Wilce, Jessie Sutherland, Anne E O'Connor, Belinda Whittle, Christopher C Goodnow, Christopher J Ormandy, and Duangporn Jamsai

Subjects

Genetics, QH426-470

Abstract

Alternative splicing of precursor messenger RNA (pre-mRNA) is common in mammalian cells and enables the production of multiple gene products from a single gene, thus increasing transcriptome and proteome diversity. Disturbance of splicing regulation is associated with many human diseases; however, key splicing factors that control tissue-specific alternative splicing remain largely undefined. In an unbiased genetic screen for essential male fertility genes in the mouse, we identified the RNA binding protein RBM5 (RNA binding motif 5) as an essential regulator of haploid male germ cell pre-mRNA splicing and fertility. Mice carrying a missense mutation (R263P) in the second RNA recognition motif (RRM) of RBM5 exhibited spermatid differentiation arrest, germ cell sloughing and apoptosis, which ultimately led to azoospermia (no sperm in the ejaculate) and male sterility. Molecular modelling suggested that the R263P mutation resulted in compromised mRNA binding. Within the adult mouse testis, RBM5 localises to somatic and germ cells including spermatogonia, spermatocytes and round spermatids. Through the use of RNA pull down coupled with microarrays, we identified 11 round spermatid-expressed mRNAs as putative RBM5 targets. Importantly, the R263P mutation affected pre-mRNA splicing and resulted in a shift in the isoform ratios, or the production of novel spliced transcripts, of most targets. Microarray analysis of isolated round spermatids suggests that altered splicing of RBM5 target pre-mRNAs affected expression of genes in several pathways, including those implicated in germ cell adhesion, spermatid head shaping, and acrosome and tail formation. In summary, our findings reveal a critical role for RBM5 as a pre-mRNA splicing regulator in round spermatids and male fertility. Our findings also suggest that the second RRM of RBM5 is pivotal for appropriate pre-mRNA splicing.

Published

2013

19. Unlocking the bottleneck in forward genetics using whole-genome sequencing and identity by descent to isolate causative mutations.

Author

Katherine R Bull, Andrew J Rimmer, Owen M Siggs, Lisa A Miosge, Carla M Roots, Anselm Enders, Edward M Bertram, Tanya L Crockford, Belinda Whittle, Paul K Potter, Michelle M Simon, Ann-Marie Mallon, Steve D M Brown, Bruce Beutler, Christopher C Goodnow, Gerton Lunter, and Richard J Cornall

Subjects

Genetics, QH426-470

Abstract

Forward genetics screens with N-ethyl-N-nitrosourea (ENU) provide a powerful way to illuminate gene function and generate mouse models of human disease; however, the identification of causative mutations remains a limiting step. Current strategies depend on conventional mapping, so the propagation of affected mice requires non-lethal screens; accurate tracking of phenotypes through pedigrees is complex and uncertain; out-crossing can introduce unexpected modifiers; and Sanger sequencing of candidate genes is inefficient. Here we show how these problems can be efficiently overcome using whole-genome sequencing (WGS) to detect the ENU mutations and then identify regions that are identical by descent (IBD) in multiple affected mice. In this strategy, we use a modification of the Lander-Green algorithm to isolate causative recessive and dominant mutations, even at low coverage, on a pure strain background. Analysis of the IBD regions also allows us to calculate the ENU mutation rate (1.54 mutations per Mb) and to model future strategies for genetic screens in mice. The introduction of this approach will accelerate the discovery of causal variants, permit broader and more informative lethal screens to be used, reduce animal costs, and herald a new era for ENU mutagenesis.

Published

2013

20. A missense mutation in the transcription factor ETV5 leads to sterility, increased embryonic and perinatal death, postnatal growth restriction, renal asymmetry and polydactyly in the mouse.

Author

Duangporn Jamsai, Brett J Clark, Stephanie J Smith, Belinda Whittle, Christopher C Goodnow, Christopher J Ormandy, and Moira K O'Bryan

Subjects

Medicine, Science

Abstract

ETV5 (Ets variant gene 5) is a transcription factor that is required for fertility. In this study, we demonstrate that ETV5 plays additional roles in embryonic and postnatal developmental processes in the mouse. Through a genome-wide mouse mutagenesis approach, we generated a sterile mouse line that carried a nonsense mutation in exon 12 of the Etv5 gene. The mutation led to the conversion of lysine at position 412 into a premature termination codon (PTC) within the ETS DNA binding domain of the protein. We showed that the PTC-containing allele produced a highly unstable mRNA, which in turn resulted in an undetectable level of ETV5 protein. The Etv5 mutation resulted in male and female sterility as determined by breeding experiments. Mutant males were sterile due to a progressive loss of spermatogonia, which ultimately resulted in a Sertoli cell only phenotype by 8 week-of-age. Further, the ETV5 target genes Cxcr4 and Ccl9 were significantly down-regulated in mutant neonate testes. CXCR4 and CCL9 have been implicated in the maintenance and migration of spermatogonia, respectively. Moreover, the Etv5 mutation resulted in several developmental abnormalities including an increased incidence of embryonic and perinatal lethality, postnatal growth restriction, polydactyly and renal asymmetry. Thus, our data define a physiological role for ETV5 in many aspects of development including embryonic and perinatal survival, postnatal growth, limb patterning, kidney development and fertility.

Published

2013

21. RAB-like 2 has an essential role in male fertility, sperm intra-flagellar transport, and tail assembly.

Author

Jennifer C Y Lo, Duangporn Jamsai, Anne E O'Connor, Claire Borg, Brett J Clark, James C Whisstock, Mark C Field, Vicki Adams, Tomomoto Ishikawa, R John Aitken, Belinda Whittle, Christopher C Goodnow, Christopher J Ormandy, and Moira K O'Bryan

Subjects

Genetics, QH426-470

Abstract

A significant percentage of young men are infertile and, for the majority, the underlying cause remains unknown. Male infertility is, however, frequently associated with defective sperm motility, wherein the sperm tail is a modified flagella/cilia. Conversely, a greater understanding of essential mechanisms involved in tail formation may offer contraceptive opportunities, or more broadly, therapeutic strategies for global cilia defects. Here we have identified Rab-like 2 (RABL2) as an essential requirement for sperm tail assembly and function. RABL2 is a member of a poorly characterized clade of the RAS GTPase superfamily. RABL2 is highly enriched within developing male germ cells, where it localizes to the mid-piece of the sperm tail. Lesser amounts of Rabl2 mRNA were observed in other tissues containing motile cilia. Using a co-immunoprecipitation approach and RABL2 affinity columns followed by immunochemistry, we demonstrated that within developing haploid germ cells RABL2 interacts with intra-flagella transport (IFT) proteins and delivers a specific set of effector (cargo) proteins, including key members of the glycolytic pathway, to the sperm tail. RABL2 binding to effector proteins is regulated by GTP. Perturbed RABL2 function, as exemplified by the Mot mouse line that contains a mutation in a critical protein-protein interaction domain, results in male sterility characterized by reduced sperm output, and sperm with aberrant motility and short tails. Our data demonstrate a novel function for the RABL protein family, an essential role for RABL2 in male fertility and a previously uncharacterised mechanism for protein delivery to the flagellum.

Published

2012

22. Differential requirement for the CD45 splicing regulator hnRNPLL for accumulation of NKT and conventional T cells.

Author

Mehmet Yabas, Dale I Godfrey, Christopher C Goodnow, and Gerard F Hoyne

Subjects

Medicine, Science

Abstract

Natural killer T (NKT) cells represent an important regulatory T cell subset that develops in the thymus and contains immature (NK1.1(lo)) and mature (NK1.1(hi)) cell subsets. Here we show in mice that an inherited mutation in heterogeneous ribonucleoprotein L-like protein (hnRNPLL(thunder)), that shortens the survival of conventional T cells, has no discernible effect on NKT cell development, homeostasis or effector function. Thus, Hnrpll deficiency effectively increases the NKT∶T cell ratio in the periphery. However, Hnrpll mutation disrupts CD45RA, RB and RC exon silencing of the Ptprc mRNA in both NKT and conventional T cells, and leads to a comparably dramatic shift to high molecular weight CD45 isoforms. In addition, Hnrpll mutation has a cell intrinsic effect on the expression of the developmentally regulated cell surface marker NK1.1 on NKT cells in the thymus and periphery but does not affect cell numbers. Therefore our results highlight both overlapping and divergent roles for hnRNPLL between conventional T cells and NKT cells. In both cell subsets it is required as a trans-acting factor to regulate alternative splicing of the Ptprc mRNA, but it is only required for survival of conventional T cells.

Published

2011

23. Aberrant mucin assembly in mice causes endoplasmic reticulum stress and spontaneous inflammation resembling ulcerative colitis.

Author

Chad K Heazlewood, Matthew C Cook, Rajaraman Eri, Gareth R Price, Sharyn B Tauro, Douglas Taupin, David J Thornton, Chin Wen Png, Tanya L Crockford, Richard J Cornall, Rachel Adams, Masato Kato, Keats A Nelms, Nancy A Hong, Timothy H J Florin, Christopher C Goodnow, and Michael A McGuckin

Subjects

Medicine

Abstract

MUC2 mucin produced by intestinal goblet cells is the major component of the intestinal mucus barrier. The inflammatory bowel disease ulcerative colitis is characterized by depleted goblet cells and a reduced mucus layer, but the aetiology remains obscure. In this study we used random mutagenesis to produce two murine models of inflammatory bowel disease, characterised the basis and nature of the inflammation in these mice, and compared the pathology with human ulcerative colitis.By murine N-ethyl-N-nitrosourea mutagenesis we identified two distinct noncomplementing missense mutations in Muc2 causing an ulcerative colitis-like phenotype. 100% of mice of both strains developed mild spontaneous distal intestinal inflammation by 6 wk (histological colitis scores versus wild-type mice, p < 0.01) and chronic diarrhoea. Monitoring over 300 mice of each strain demonstrated that 25% and 40% of each strain, respectively, developed severe clinical signs of colitis by age 1 y. Mutant mice showed aberrant Muc2 biosynthesis, less stored mucin in goblet cells, a diminished mucus barrier, and increased susceptibility to colitis induced by a luminal toxin. Enhanced local production of IL-1beta, TNF-alpha, and IFN-gamma was seen in the distal colon, and intestinal permeability increased 2-fold. The number of leukocytes within mesenteric lymph nodes increased 5-fold and leukocytes cultured in vitro produced more Th1 and Th2 cytokines (IFN-gamma, TNF-alpha, and IL-13). This pathology was accompanied by accumulation of the Muc2 precursor and ultrastructural and biochemical evidence of endoplasmic reticulum (ER) stress in goblet cells, activation of the unfolded protein response, and altered intestinal expression of genes involved in ER stress, inflammation, apoptosis, and wound repair. Expression of mutated Muc2 oligomerisation domains in vitro demonstrated that aberrant Muc2 oligomerisation underlies the ER stress. In human ulcerative colitis we demonstrate similar accumulation of nonglycosylated MUC2 precursor in goblet cells together with ultrastructural and biochemical evidence of ER stress even in noninflamed intestinal tissue. Although our study demonstrates that mucin misfolding and ER stress initiate colitis in mice, it does not ascertain the genetic or environmental drivers of ER stress in human colitis.Characterisation of the mouse models we created and comparison with human disease suggest that ER stress-related mucin depletion could be a fundamental component of the pathogenesis of human colitis and that clinical studies combining genetics, ER stress-related pathology and relevant environmental epidemiology are warranted.

Published

2008