Your search keyword '"Neil V. Morgan"' showing total 141 results

1. Editorial: Case reports in cardiovascular genetics and systems medicine: 2022

Author

Neil V. Morgan

Subjects

case-report, clinical cases, genetics, cardiovascular disease, rare variants, genotype-phenotype, Diseases of the circulatory (Cardiovascular) system, RC666-701

Published

2023

2. Inherited ADAMTS13 mutations associated with Thrombotic Thrombocytopenic Purpura: a short review and update

Author

Zoe Markham-Lee, Neil V. Morgan, and Jonas Emsley

Subjects

adamts13, thrombotic thrombocytopenic purpura, vwf, Diseases of the blood and blood-forming organs, RC633-647.5

Abstract

ADAMTS13 is a plasma metalloprotease with the primary function of cleaving VWF to maintain hemostasis. Circulating ADAMTS13 is in the closed conformation until blood vessel injury triggers a VWF-dependant activation to the open active form of the protein. ADAMTS13 is a multi-domain protein with the domains broadly functioning to interact and cleave VWF or maintain global latency of ADAMTS13. Thrombotic Thrombocytopenic Purpura is a disease characterized by excessive thrombi formation in the microvasculature, diagnosis is made when ADAMTS13 activity is

Published

2023

3. An adaptable analysis workflow for characterization of platelet spreading and morphology

Author

Jeremy A. Pike, Victoria A. Simms, Christopher W. Smith, Neil V. Morgan, Abdullah O. Khan, Natalie S. Poulter, Iain B. Styles, and Steven G. Thomas

Subjects

image analysis, machine learning, platelets, spreading, Diseases of the blood and blood-forming organs, RC633-647.5

Abstract

The assessment of platelet spreading through light microscopy, and the subsequent quantification of parameters such as surface area and circularity, is a key assay for many platelet biologists. Here we present an analysis workflow which robustly segments individual platelets to facilitate the analysis of large numbers of cells while minimizing user bias. Image segmentation is performed by interactive learning and touching platelets are separated with an efficient semi-automated protocol. We also use machine learning methods to robustly automate the classification of platelets into different subtypes. These adaptable and reproducible workflows are made freely available and are implemented using the open-source software KNIME and ilastik.

Published

2021

4. SLFN14 gene mutations associated with bleeding

Author

Rachel J. Stapley, Vera P. Pisareva, Andrey V. Pisarev, and Neil V. Morgan

Subjects

bleeding, genes, inherited thrombocytopenia, mutations, platelets, slfn14, Diseases of the blood and blood-forming organs, RC633-647.5

Published

2020

5. Sorting nexin 24 is required for α-granule biogenesis and cargo delivery in megakaryocytes

Author

Joanne Lacey, Simon J. Webster, Paul R. Heath, Chris J. Hill, Lucinda Nicholson-Goult, Bart E. Wagner, Abdullah O. Khan, Neil V. Morgan, Michael Makris, and Martina E. Daly

Subjects

Diseases of the blood and blood-forming organs, RC633-647.5

Abstract

Germline defects affecting the DNA-binding domain of the transcription factor FLI1 are associated with a bleeding disorder that is characterized by the presence of large, fused α-granules in platelets. We investigated whether the genes showing abnormal expression in FLI1-deficient platelets could be involved in platelet α-granule biogenesis by undertaking transcriptome analysis of control platelets and platelets harboring a DNA-binding variant of FLI1. Our analysis identified 2,276 transcripts that were differentially expressed in FLI1-deficient platelets. Functional annotation clustering of the coding transcripts revealed significant enrichment for gene annotations relating to protein transport, and identified Sorting nexin 24 (SNX24) as a candidate for further investigation. Using an induced pluripotent stem cell-derived megakaryocyte model, SNX24 expression was found to be increased during the early stages of megakaryocyte differentiation and downregulated during proplatelet formation, indicating tight regulatory control during megakaryopoiesis. CRISPR-Cas9 mediated knockout (KO) of SNX24 led to decreased expression of immature megakaryocyte markers, CD41 and CD61, and increased expression of the mature megakaryocyte marker CD42b (P=0.0001), without affecting megakaryocyte polyploidisation, or proplatelet formation. Electron microscopic analysis revealed an increase in empty membrane-bound organelles in SNX24 KO megakaryocytes, a reduction in α-granules and an absence of immature and mature multivesicular bodies, consistent with a defect in the intermediate stage of α-granule maturation. Co-localization studies showed that SNX24 associates with each compartment of α-granule maturation. Reduced expression of CD62P and VWF was observed in SNX24 KO megakaryocytes. We conclude that SNX24 is required for α-granule biogenesis and intracellular trafficking of α-granule cargo within megakaryocytes.

Published

2022

6. New insights into glycoprotein Ibα desialylation-mediated platelet clearance

Author

Jack Yule, Neil V. Morgan, and Natalie S. Poulter

Subjects

glycoprotein ibα, o-glycans, platelet clearance, sialylation, Diseases of the blood and blood-forming organs, RC633-647.5

Published

2020

7. Evaluation of the Total Thrombus-Formation System (T-TAS): application to human and mouse blood analysis

Author

Rashid Al Ghaithi, Jun Mori, Zoltan Nagy, Annabel Maclachlan, Lewis Hardy, Helen Philippou, Emma Hethershaw, Neil V. Morgan, Yotis A. Senis, and Paul Harrison

Subjects

light transmission lumi-aggregometry, mild bleeding disorders, platelet aggregation, platelet function defects, total thrombus-formation system, wt mice, Diseases of the blood and blood-forming organs, RC633-647.5

Abstract

The Total Thrombus-formation Analyser System (T-TAS) is a whole blood flow chamber system for the measurement of in vitro thrombus formation under variable shear stress conditions. Our current study sought to evaluate the potential utility of the T-TAS for the measurement of thrombus formation within human and mouse whole blood. T-TAS microchips (collagen, PL chip; collagen/tissue thromboplastin, AR chip) were used to analyze platelet (PL) or fibrin-rich thrombus formation, respectively. Blood samples from humans (healthy and patients with mild bleeding disorders) and wild-type (WT), mice were tested. Light transmission lumi-aggregometer (lumi-LTA) was performed in PRP using several concentrations of ADP, adrenaline, arachidonic acid, collagen, PAR-1 peptide and ristocetin. Thrombus growth (N = 22) increased with shear within PL (4:40 ± 1.11, 3:25 ± 0.43 and 3:12 ± 0.48 mins [1000, 1500 and 2000s−1]) and AR chips (3:55 ± 0.42 and 1:49 ± 0.19 [240s−1 and 600s−1]). The area under the curve (AUC) on the PL chip was also reduced at 1000s−1 compared to 1500/2000s−1 (260 ± 51.7, 317 ± 55.4 and 301 ± 66.2, respectively). In contrast, no differences in the AUC between 240s−1 and 600s−1 were observed in the AR chip (1593 ± 122 and 1591 ± 158). The intra-assay coefficient of variation (CV) (n = 10) in the PL chip (1000s−1) and AR chip (240s−1) were T1014.1%, T6016.7%, T10-6022.8% and AUC1024.4% or T10 9.03%, T808.64%, T10-8023.8% and AUC305.1%. AR chip thrombus formation was inhibited by rivaroxaban (1 µM), but not with ticagrelor (10 µM). In contrast, PL chip thrombus formation was totally inhibited by ticagrelor. T-TAS shows an overall agreement with lumi-LTA in 87% of patients (n = 30) with normal PL counts recruited into the genotyping and phenotyping of platelet (GAPP) study and suspected to have a PL function defect. The onset (T10) of thrombus formation in WT mice (N = 4) was shorter when compared to humans e.g. PL chip (1000s−1) T10 were 02:02 ± 00:23 and 03:30 ± 0:45, respectively). T-TAS measures in vitro thrombus formation and can be used for monitoring antithrombotic therapy, investigating patients with suspected PL function defects and monitoring PL function within mice.

Published

2019

8. A Novel GATA1 Variant in the C-Terminal Zinc Finger Compared with the Platelet Phenotype of Patients with A Likely Pathogenic Variant in the N-Terminal Zinc Finger

Author

José M. Bastida, Stefano Malvestiti, Doris Boeckelmann, Verónica Palma-Barqueros, Mira Wolter, María L. Lozano, Hannah Glonnegger, Rocío Benito, Carlo Zaninetti, Felix Sobotta, Freimut H. Schilling, Neil V. Morgan, Kathleen Freson, José Rivera, and Barbara Zieger

Subjects

platelet pathophysiology, inherited platelet defects, bleeding, GATA1, Cytology, QH573-671

Abstract

The GATA1 transcription factor is essential for normal erythropoiesis and megakaryocytic differentiation. Germline GATA1 pathogenic variants in the N-terminal zinc finger (N-ZF) are typically associated with X-linked thrombocytopenia, platelet dysfunction, and dyserythropoietic anemia. A few variants in the C-terminal ZF (C-ZF) domain are described with normal platelet count but altered platelet function as the main characteristic. Independently performed molecular genetic analysis identified a novel hemizygous variant (c.865C>T, p.H289Y) in the C-ZF region of GATA1 in a German patient and in a Spanish patient. We characterized the bleeding and platelet phenotype of these patients and compared these findings with the parameters of two German siblings carrying the likely pathogenic variant p.D218N in the GATA1 N-ZF domain. The main difference was profound thrombocytopenia in the brothers carrying the p.D218N variant compared to a normal platelet count in patients carrying the p.H289Y variant; only the Spanish patient occasionally developed mild thrombocytopenia. A functional platelet defect affecting αIIbβ3 integrin activation and α-granule secretion was present in all patients. Additionally, mild anemia, anisocytosis, and poikilocytosis were observed in the patients with the C-ZF variant. Our data support the concept that GATA1 variants located in the different ZF regions can lead to clinically diverse manifestations.

Published

2022

9. The RUNX1 database (RUNX1db): establishment of an expert curated RUNX1 registry and genomics database as a public resource for familial platelet disorder with myeloid malignancy

Author

Claire C. Homan, Sarah L. King-Smith, David M. Lawrence, Peer Arts, Jinghua Feng, James Andrews, Mark Armstrong, Thuong Ha, Julia Dobbins, Michael W. Drazer, Kai Yu, Csaba Bödör, Alan Cantor, Mario Cazzola, Erin Degelman, Courtney D. DiNardo, Nicolas Duployez, Remi Favier, Stefan Fröhling, Jude Fitzgibbon, Jeffery M. Klco, Alwin Krämer, Mineo Kurokawa, Joanne Lee, Luca Malcovati, Neil V. Morgan, Georges Natsoulis, Carolyn Owen, Keyur P. Patel, Claude Preudhomme, Hana Raslova, Hugh Rienhoff, Tim Ripperger, Rachael Schulte, Kiran Tawana, Elvira Velloso, Benedict Yan, Paul Liu, Lucy A. Godley, Andreas W. Schreiber, Christopher N. Hahn, Hamish S. Scott, and Anna L. Brown

Subjects

Diseases of the blood and blood-forming organs, RC633-647.5

Published

2021

10. Post-translational polymodification of β1-tubulin regulates motor protein localization in platelet production and function

Author

Abdullah O. Khan, Alexandre Slater, Annabel Maclachlan, Phillip L.R. Nicolson, Jeremy A. Pike, Jasmeet S. Reyat, Jack Yule, Rachel Stapley, Julie Rayes, Steven G. Thomas, and Neil V. Morgan

Subjects

Diseases of the blood and blood-forming organs, RC633-647.5

Abstract

In specialized cells, the expression of specific tubulin isoforms and their subsequent post-translational modifications drive and coordinate unique morphologies and behaviors. The mechanisms by which β1-tubulin, the platelet and megakaryocyte (MK) lineage restricted tubulin isoform, drives platelet production and function remains poorly understood. We investigated the roles of two key post-translational tubulin polymodifications (polyglutamylation and polyglycylation) on these processes using a cohort of thrombocytopenic patients, human induced pluripotent stem cell derived MK, and healthy human donor platelets. We find distinct patterns of polymodification in MK and platelets, mediated by the antagonistic activities of the cell specific expression of tubulin tyrosine ligase like enzymes and cytosolic carboxypeptidase enzymes. The resulting microtubule patterning spatially regulates motor proteins to drive proplatelet formation in megakaryocytes, and the cytoskeletal reorganization required for thrombus formation. This work is the first to show a reversible system of polymodification by which different cell specific functions are achieved.

Published

2020

11. Investigation of the contribution of an underlying platelet defect in women with unexplained heavy menstrual bleeding

Author

Gillian C. Lowe, Roksana Fickowska, Rashid Al Ghaithi, Annabel Maclachlan, Paul Harrison, Will Lester, Steve P. Watson, Bethan Myers, Justin Clark, and Neil V. Morgan

Subjects

aggregometry, bleeding, heavy menstrual bleeding, platelet function defects, platelet function tests, platelets, Diseases of the blood and blood-forming organs, RC633-647.5

Abstract

Heavy menstrual bleeding (HMB) is often undiagnosed in women and can cause discomfort and distress. A haemostatic cause for excessive bleeding is often not routinely investigated and can lead to hysterectomy at an early age. A prospective cohort study was carried out to determine whether certain patients with unexplained HMB have an underlying platelet function defect (PFD). The Genotyping and Phenotyping of Platelets (GAPP) study recruited 175 women with HMB and 44 unrelated volunteers from 25 Haemophilia Centres across the UK, and a tertiary gynaecology service. Bleeding history was assessed using the International Society on Thrombosis and Haemostasis Bleeding Assessment Tool (ISTH-BAT). Platelet count, platelet size, haemoglobin and mean corpuscular volume were measured in whole blood using the Sysmex XN-1000 Haematology Analyzer. Platelet function testing using lumiaggregometry and flow cytometry was performed in patients included in this study. A PFD was identified in 47% (82/175) of patients with HMB. Cutaneous bleeding was the most frequent additional bleeding symptom (89% in PFD and 83% with no PFD). Whole blood platelet count was significantly lower (P

Published

2019

12. High-throughput platelet spreading analysis: a tool for the diagnosis of platelet-based bleeding disorders

Author

Abdullah O. Khan, Annabel Maclachlan, Gillian C. Lowe, Phillip L.R. Nicolson, Rashid Al Ghaithi, Steven G. Thomas, Steve P. Watson, Jeremy A. Pike, and Neil V. Morgan

Subjects

Diseases of the blood and blood-forming organs, RC633-647.5

Published

2020

13. CRISPR-Cas9 Mediated Labelling Allows for Single Molecule Imaging and Resolution

Author

Abdullah O. Khan, Victoria A. Simms, Jeremy A. Pike, Steven G. Thomas, and Neil V. Morgan

Subjects

Medicine, Science

Abstract

Abstract Single molecule imaging approaches like dSTORM and PALM resolve structures at 10–20 nm, and allow for unique insights into protein stoichiometry and spatial relationships. However, key obstacles remain in developing highly accurate quantitative single molecule approaches. The genomic tagging of PALM fluorophores through CRISPR-Cas9 offers an excellent opportunity for generating stable cell lines expressing a defined single molecule probe at endogenous levels, without the biological disruption and variability inherent to transfection. A fundamental question is whether these comparatively low levels of expression can successfully satisfy the stringent labelling demands of super-resolution SMLM. Here we apply CRISPR-Cas9 gene editing to tag a cytoskeletal protein (α-tubulin) and demonstrate a relationship between expression level and the subsequent quality of PALM imaging, and that spatial resolutions comparable to dSTORM can be achieved with CRISPR-PALM. Our approach shows a relationship between choice of tag and the total expression of labelled protein, which has important implications for the development of future PALM tags. CRISPR-PALM allows for nanoscopic spatial resolution and the unique quantitative benefits of single molecule localization microscopy through endogenous expression, as well as the capacity for super-resolved live cell imaging.

Published

2017

14. Inherited Thrombocytopenia: Update on Genes and Genetic Variants Which may be Associated With Bleeding

Author

Ibrahim Almazni, Rachel Stapley, and Neil V. Morgan

Subjects

inherited thrombocytopenia, platelets, megakaryocytes, genes, mutations, bleeding, Diseases of the circulatory (Cardiovascular) system, RC666-701

Abstract

Inherited thrombocytopenia (IT) is comprised of a group of hereditary disorders characterized by a reduced platelet count as the main feature, and often with abnormal platelet function, which can subsequently lead to impaired haemostasis. Inherited thrombocytopenia results from genetic mutations in genes implicated in megakaryocyte differentiation and/or platelet formation and clearance. The identification of the underlying causative gene of IT is challenging given the high degree of heterogeneity, but important due to the presence of various clinical presentations and prognosis, where some defects can lead to hematological malignancies. Traditional platelet function tests, clinical manifestations, and hematological parameters allow for an initial diagnosis. However, employing Next-Generation Sequencing (NGS), such as Whole Genome and Whole Exome Sequencing (WES) can be an efficient method for discovering causal genetic variants in both known and novel genes not previously implicated in IT. To date, 40 genes and their mutations have been implicated to cause many different forms of inherited thrombocytopenia. Nevertheless, despite this advancement in the diagnosis of IT, the molecular mechanism underlying IT in some patients remains unexplained. In this review, we will discuss the genetics of thrombocytopenia summarizing the recent advancement in investigation and diagnosis of IT using phenotypic approaches, high-throughput sequencing, targeted gene panels, and bioinformatics tools.

Published

2019

15. Inherited platelet disorders: Insight from platelet genomics using next-generation sequencing

Author

Annabel Maclachlan, Steve P. Watson, and Neil V. Morgan

Subjects

platelet disorders, genetics, bleeding, next generation sequencing, Diseases of the blood and blood-forming organs, RC633-647.5

Abstract

Inherited platelet disorders (IPDs) are a heterogeneous group of disorders associated with normal or reduced platelet counts and bleeding diatheses of varying severities. The identification of the underlying cause of IPDs is clinically challenging due to the absence of a gold-standard platelet test, and is often based on a clinical presentation and normal values in other hematology assays. As a consequence, a DNA-based approach has a potentially important role in the investigation of these patients. Next-generation sequencing (NGS) technologies are allowing the rapid analysis of genes that have been previously implicated in IPDs or that are known to have a key role in platelet regulation, as well as novel genes that have not been previously implicated in platelet dysfunction. The potential limitations of NGS arise with the interpretation of the sheer volume of genetic information obtained from whole exome sequencing (WES) or whole genome sequencing (WGS) in order to identify function-disrupting variants. Following on from bioinformatic analysis, a number of candidate genetic variants usually remain, therefore adding to the difficulty of phenotype–genotype segregation verification. Linking genetic changes to an underlying bleeding disorder is an ongoing challenge and may not always be feasible due to the multifactorial nature of IPDs. Nevertheless, NGS will play a key role in our understanding of the mechanisms of platelet function and the genetics involved.

Published

2017

16. Whole exome sequencing identifies a mutation in thrombomodulin as the genetic cause of a suspected platelet disorder in a family with normal platelet function

Author

Annabel Maclachlan, Gerry Dolan, Charlotte Grimley, Steve P. Watson, Neil V. Morgan, and on behalf of the UK GAPP Study Group

Subjects

genetics, inherited bleeding, next-generation sequencing, platelets, thrombomodulin, Diseases of the blood and blood-forming organs, RC633-647.5

Abstract

Here, we describe a mother and son with a lifelong bleeding tendency and posttraumatic bleeding who were recruited to the UK Genotyping and Phenotyping of Platelets (GAPP) study with a suspected platelet function disorder. However, despite a clinically significant bleeding score, both had normal platelet counts and normal platelet function. The patients’ blood was analyzed by light transmission aggregometry and genotyping by whole exome sequencing, as outlined by the GAPP study. Approximately 25 000 genetic variants were found for each patient as a result of sequencing and were filtered using a specialized bioinformatics pipeline. A heterozygous variant displaying autosomal dominant inheritance (c.1611 C>A) was found in the gene THBD which encodes the glycoprotein thrombomodulin. This sequence change results in a stop codon (p.Cys537Stop) and truncation of the protein and has been previously described in two other families with bleeding events which suggests it may be a recurrent mutation. In summary, this study shows that patients with a suspected platelet disorder but who present with a normal pattern of platelet aggregation should be investigated for defects in nonplatelet genes.

Published

2017

17. Gene of the issue: RUNX1 mutations and inherited bleeding

Author

Neil V. Morgan and Martina E. Daly

Subjects

bleeding, inherited mutations, platelets, runx1 gene, Diseases of the blood and blood-forming organs, RC633-647.5

Published

2017

18. Introducing high-throughput sequencing into mainstream genetic diagnosis practice in inherited platelet disorders

Author

José M. Bastida, María L. Lozano, Rocío Benito, Kamila Janusz, Verónica Palma-Barqueros, Mónica Del Rey, Jesús M. Hernández-Sánchez, Susana Riesco, Nuria Bermejo, Hermenegildo González-García, Agustín Rodriguez-Alén, Carlos Aguilar, Teresa Sevivas, María F. López-Fernández, Anna E. Marneth, Bert A. van der Reijden, Neil V. Morgan, Steve P. Watson, Vicente Vicente, Jesús M. Hernández-Rivas, José Rivera, and José R. González-Porras

Subjects

Diseases of the blood and blood-forming organs, RC633-647.5

Abstract

Inherited platelet disorders are a heterogeneous group of rare diseases, caused by inherited defects in platelet production and/or function. Their genetic diagnosis would benefit clinical care, prognosis and preventative treatments. Until recently, this diagnosis has usually been performed via Sanger sequencing of a limited number of candidate genes. High-throughput sequencing is revolutionizing the genetic diagnosis of diseases, including bleeding disorders. We have designed a novel high-throughput sequencing platform to investigate the unknown molecular pathology in a cohort of 82 patients with inherited platelet disorders. Thirty-four (41.5%) patients presented with a phenotype strongly indicative of a particular type of platelet disorder. The other patients had clinical bleeding indicative of platelet dysfunction, but with no identifiable features. The high-throughput sequencing test enabled a molecular diagnosis in 70% of these patients. This sensitivity increased to 90% among patients suspected of having a defined platelet disorder. We found 57 different candidate variants in 28 genes, of which 70% had not previously been described. Following consensus guidelines, we qualified 68.4% and 26.3% of the candidate variants as being pathogenic and likely pathogenic, respectively. In addition to establishing definitive diagnoses of well-known inherited platelet disorders, high-throughput sequencing also identified rarer disorders such as sitosterolemia, filamin and actinin deficiencies, and G protein-coupled receptor defects. This included disease-causing variants in DIAPH1 (n=2) and RASGRP2 (n=3). Our study reinforces the feasibility of introducing high-throughput sequencing technology into the mainstream laboratory for the genetic diagnostic practice in inherited platelet disorders.

Published

2018

19. Whole exome sequencing identifies genetic variants in inherited thrombocytopenia with secondary qualitative function defects

Author

Ben Johnson, Gillian C. Lowe, Jane Futterer, Marie Lordkipanidzé, David MacDonald, Michael A. Simpson, Isabel Sanchez-Guiú, Sian Drake, Danai Bem, Vincenzo Leo, Sarah J. Fletcher, Ban Dawood, José Rivera, David Allsup, Tina Biss, Paula HB Bolton-Maggs, Peter Collins, Nicola Curry, Charlotte Grimley, Beki James, Mike Makris, Jayashree Motwani, Sue Pavord, Katherine Talks, Jecko Thachil, Jonathan Wilde, Mike Williams, Paul Harrison, Paul Gissen, Stuart Mundell, Andrew Mumford, Martina E. Daly, Steve P. Watson, and Neil V. Morgan

Subjects

Diseases of the blood and blood-forming organs, RC633-647.5

Abstract

Inherited thrombocytopenias are a heterogeneous group of disorders characterized by abnormally low platelet counts which can be associated with abnormal bleeding. Next-generation sequencing has previously been employed in these disorders for the confirmation of suspected genetic abnormalities, and more recently in the discovery of novel disease-causing genes. However its full potential has not yet been exploited. Over the past 6 years we have sequenced the exomes from 55 patients, including 37 index cases and 18 additional family members, all of whom were recruited to the UK Genotyping and Phenotyping of Platelets study. All patients had inherited or sustained thrombocytopenia of unknown etiology with platelet counts varying from 11×109/L to 186×109/L. Of the 51 patients phenotypically tested, 37 (73%), had an additional secondary qualitative platelet defect. Using whole exome sequencing analysis we have identified “pathogenic” or “likely pathogenic” variants in 46% (17/37) of our index patients with thrombocytopenia. In addition, we report variants of uncertain significance in 12 index cases, including novel candidate genetic variants in previously unreported genes in four index cases. These results demonstrate that whole exome sequencing is an efficient method for elucidating potential pathogenic genetic variants in inherited thrombocytopenia. Whole exome sequencing also has the added benefit of discovering potentially pathogenic genetic variants for further study in novel genes not previously implicated in inherited thrombocytopenia.

Published

2016

20. Introduction of an ancient founder glycoprotein VI mutation into the Chilean population

Author

Amanda Dalby, Diego Mezzano, José Rivera, Steve P. Watson, and Neil V. Morgan

Subjects

Haplotypes, Mutation, Hematology, Chile, Pedigree, Glycoproteins

Published

2022

21. Prevalence and natural history of variants in the ANKRD26 gene: a short review and update of reported cases

Author

Hrushikesh Vyas, Ahmad Alcheikh, Gillian Lowe, William S Stevenson, Neil V Morgan, and David J Rabbolini

Subjects

Hematology, General Medicine

Published

2022

22. Efficient megakaryopoiesis and platelet production require phospholipid remodeling and PUFA uptake through CD36

Author

Maria N Barrachina, Gerard Pernes, Isabelle C Becker, Isabelle Allaeys, Thomas I. Hirsch, Dafna J Groeneveld, Abdullah O. Khan, Daniela Freire, Karen Guo, Estelle Carminita, Pooranee K Morgan, Thomas J Collins, Natalie A Mellett, Zimu Wei, Ibrahim Almazni, Joseph E. Italiano, James Luyendyk, Peter J Meikle, Mark Puder, Neil V. Morgan, Eric Boilard, Andrew J Murphy, and Kellie R Machlus

Subjects

Article

Abstract

Lipids contribute to hematopoiesis and membrane properties and dynamics, however, little is known about the role of lipids in megakaryopoiesis. Here, a lipidomic analysis of megakaryocyte progenitors, megakaryocytes, and platelets revealed a unique lipidome progressively enriched in polyunsaturated fatty acid (PUFA)-containing phospholipids. In vitro, inhibition of both exogenous fatty acid functionalization and uptake and de novo lipogenesis impaired megakaryocyte differentiation and proplatelet production. In vivo, mice on a high saturated fatty acid diet had significantly lower platelet counts, which was prevented by eating a PUFA-enriched diet. Fatty acid uptake was largely dependent on CD36, and its deletion in mice resulted in thrombocytopenia. Moreover, patients with a CD36 loss-of-function mutation exhibited thrombocytopenia and increased bleeding. Our results suggest that fatty acid uptake and regulation is essential for megakaryocyte maturation and platelet production, and that changes in dietary fatty acids may be a novel and viable target to modulate platelet counts.

Published

2023

23. A comprehensive bioinformatic analysis of 126 patients with an inherited platelet disorder to identify both sequence and copy number genetic variants

Author

Rachel J Stapley, Neil V. Morgan, Abdullah O. Khan, and Ibrahim Abdullah F Almazni

Subjects

Genetics, Heterozygote, 0303 health sciences, DNA Copy Number Variations, Platelet disorder, 030305 genetics & heredity, Genetic variants, Computational Biology, Biology, 03 medical and health sciences, Phenotype, Mutation, Exome Sequencing, Humans, Platelet, Blood Platelet Disorders, Copy-number variation, Gene, Genetics (clinical), Function (biology), Exome sequencing, 030304 developmental biology, Sequence (medicine)

Abstract

Inherited bleeding disorders (IBDs) comprise an extremely heterogeneous group of diseases that reflect abnormalities of blood vessels, coagulation proteins, and platelets. Previously the UK-GAPP study has used whole-exome sequencing in combination with deep platelet phenotyping to identify pathogenic genetic variants in both known and novel genes in approximately 40% of the patients. To interrogate the remaining "unknown" cohort and improve this detection rate, we employed an IBD-specific gene panel of 119 genes using the Congenica Clinical Interpretation Platform to detect both single-nucleotide variants and copy number variants in 126 patients. In total, 135 different heterozygous variants in genes implicated in bleeding disorders were identified. Of which, 22 were classified pathogenic, 26 likely pathogenic, and the remaining were of uncertain significance. There were marked differences in the number of reported variants in individuals between the four patient groups: platelet count (35), platelet function (43), combined platelet count and function (59), and normal count (17). Additionally, we report three novel copy number variations (CNVs) not previously detected. We show that a combined single-nucleotide variation (SNV)/CNV analysis using the Congenica platform not only improves detection rates for IBDs, suggesting that such an approach can be applied to other genetic disorders where there is a high degree of heterogeneity.

Published

2020

24. Germline TET2 loss of function causes childhood immunodeficiency and lymphoma

Author

Sinisa Savic, James A. Poulter, Andrew J. Cant, Eamonn Sheridan, Helen Griffin, Dylan Lawless, Sophie Hambleton, Neil V. Morgan, Stefan Przyborski, Siti Mardhiana Mohamad, Rashida Anwar, Jennifer Shrimpton, Clive Carter, Gina M. Doody, Karin R. Engelhardt, Kevin Windebank, Meghan Acres, Catherine Cargo, Stephan Ehl, Frédéric Rieux-Laucat, Chris M. Bacon, Sean O’Riordan, Anne Rensing-Ehl, Jarmila Stremenova Spegarova, Majlinda Lako, Philip Chetcuti, and Aneta Mikulasova

Subjects

Male, medicine.medical_treatment, T cell, Induced Pluripotent Stem Cells, Immunology, B-Lymphocyte Subsets, Mutation, Missense, Apoptosis, Hematopoietic stem cell transplantation, Biology, medicine.disease_cause, Biochemistry, Germline, Dioxygenases, Neoplasms, Multiple Primary, Fatal Outcome, Immune system, Germline mutation, Loss of Function Mutation, T-Lymphocyte Subsets, Proto-Oncogene Proteins, Exome Sequencing, medicine, Humans, Cellular Reprogramming Techniques, Germ-Line Mutation, Immunodeficiency, Hematopoietic Stem Cell Transplantation, Infant, Newborn, Lymphoma, T-Cell, Peripheral, Cell Biology, Hematology, DNA Methylation, Immune dysregulation, Allografts, medicine.disease, Lymphoproliferative Disorders, Pedigree, DNA-Binding Proteins, medicine.anatomical_structure, Codon, Nonsense, Autoimmune lymphoproliferative syndrome, Cancer research, Female, Severe Combined Immunodeficiency, Lymphoma, Large B-Cell, Diffuse

Abstract

Molecular dissection of inborn errors of immunity can help to elucidate the nonredundant functions of individual genes. We studied 3 children with an immune dysregulation syndrome of susceptibility to infection, lymphadenopathy, hepatosplenomegaly, developmental delay, autoimmunity, and lymphoma of B-cell (n = 2) or T-cell (n = 1) origin. All 3 showed early autologous T-cell reconstitution following allogeneic hematopoietic stem cell transplantation. By whole-exome sequencing, we identified rare homozygous germline missense or nonsense variants in a known epigenetic regulator of gene expression: ten-eleven translocation methylcytosine dioxygenase 2 (TET2). Mutated TET2 protein was absent or enzymatically defective for 5-hydroxymethylating activity, resulting in whole-blood DNA hypermethylation. Circulating T cells showed an abnormal immunophenotype including expanded double-negative, but depleted follicular helper, T-cell compartments and impaired Fas-dependent apoptosis in 2 of 3 patients. Moreover, TET2-deficient B cells showed defective class-switch recombination. The hematopoietic potential of patient-derived induced pluripotent stem cells was skewed toward the myeloid lineage. These are the first reported cases of autosomal-recessive germline TET2 deficiency in humans, causing clinically significant immunodeficiency and an autoimmune lymphoproliferative syndrome with marked predisposition to lymphoma. This disease phenotype demonstrates the broad role of TET2 within the human immune system.

Published

2020

25. Flow studies on human GPVI-deficient blood under coagulating and noncoagulating conditions

Author

Neil V. Morgan, Lorena Azocar, Gina Perrella, Jeremy A. Pike, Magdolna Nagy, Elizabeth E. Gardiner, Amanda Dalby, Johan W. M. Heemskerk, Steve P. Watson, Juan Francisco Miquel, Lourdes Garcia Quintanilla, Diego Mezzano, M. Francisca Becerra, RS: Carim - B04 Clinical thrombosis and Haemostasis, Biochemie, and RS: Carim - B03 Cell biochemistry of thrombosis and haemostasis

Subjects

Blood Platelets, INVOLVEMENT, 0301 basic medicine, ALPHA-2-BETA-1 INTEGRIN, VON-WILLEBRAND-FACTOR, Population, Fc receptor, Platelet Membrane Glycoproteins, 030204 cardiovascular system & hematology, Thrombosis and Hemostasis, ALPHA(2)BETA(1), 03 medical and health sciences, 0302 clinical medicine, Thrombin, Von Willebrand factor, Laminin, von Willebrand Factor, medicine, Humans, Platelet, education, education.field_of_study, biology, Chemistry, Hematology, Blood Coagulation Disorders, Molecular biology, COLLAGEN, FIBRIN, THROMBUS FORMATION, PLATELET-ADHESION, Transmembrane domain, 030104 developmental biology, biology.protein, GLYCOPROTEIN-VI, GPVI, RECEPTOR GAMMA-CHAIN, medicine.drug

Abstract

The role of glycoprotein VI (GPVI) in platelets was investigated in 3 families bearing an insertion within the GP6 gene that introduces a premature stop codon prior to the transmembrane domain, leading to expression of a truncated protein in the cytoplasm devoid of the transmembrane region. Western blotting and flow cytometry of GP6hom (homozygous) platelets confirmed loss of the full protein. The level of the Fc receptor γ-chain, which associates with GPVI in the membrane, was partially reduced, but expression of other receptors and signaling proteins was not altered. Spreading of platelets on collagen and von Willebrand factor (which supports partial spreading) was abolished in GP6hom platelets, and spreading on uncoated glass was reduced. Anticoagulated whole blood flowed over immobilized collagen or a mixture of von Willebrand factor, laminin, and rhodocytin (noncollagen surface) generated stable platelet aggregates that express phosphatidylserine (PS). Both responses were blocked on the 2 surfaces in GP6hom individuals, but adhesion was not altered. Thrombin generation was partially reduced in GP6hom blood. The frequency of the GP6het (heterozygous) variant in a representative sample of the Chilean population (1212 donors) is 2.9%, indicating that there are ∼4000 GP6hom individuals in Chile. These results demonstrate that GPVI supports aggregation and PS exposure under flow on collagen and noncollagen surfaces, but not adhesion. The retention of adhesion may contribute to the mild bleeding diathesis of GP6hom patients and account for why so few of the estimated 4000 GP6hom individuals in Chile have been identified.

Published

2020

26. Corrigendum to GoldVariants, a resource for sharing rare genetic variants detected in bleeding, thrombotic, and platelet disorders: Communication from the ISTH SSC Subcommittee on Genomics in Thrombosis and Hemostasis [J Thromb Haemost. 2021 Oct;19(10):2612-2617]

Author

Karyn Megy, Kate Downes, Marie-Christine Morel-Kopp, José M. Bastida, Shannon Brooks, Loredana Bury, Eva Leinoe, Keith Gomez, Neil V. Morgan, Maha Othman, Willem H. Ouwehand, Juliana Perez Botero, José Rivera, Harald Schulze, David-Alexandre Trégouët, and Kathleen Freson

Subjects

Hematology

Published

2023

27. Somatic mutational landscape of hereditary hematopoietic malignancies associated with germline variants in RUNX1, GATA2 and DDX41

Author

Anna L. Brown, Claire Homan, Michael W. Drazer, Kai Yu, David Lawrence, Jinghua Feng, Luis Arriola-Martinez, Matthew Pozsgai, Kelsey McNeely, Thuong Ha, Parvathy Venugopal, Peer Arts, Sarah King-Smith, Jesse JC Cheah, Mark Armstrong, Csaba Bödör, Paul Wang, Alan B. Cantor, Mario Cazzola, Erin Degelman, Courtney D. DiNardo, Nicolas Duployez, Remi Favier, Stefan Fröhling, Ana Rio-Machin, Jeffery M. Klco, Alwin Krämer, Mineo Kurokawa, Joanne Lee, Luca Malcovati, Neil V Morgan, Georges Natsoulis, Carolyn Owen, Keyur P. Patel, Claude Preudhomme, Hana Raslova, Hugh Young Rienhoff, Tim Ripperger, Rachael Schulte, Kiran Tawana, Elvira Deolinda Rodrigues Pereira Velloso, Benedict Yan, Raman Sood, Amy Hsu, Steven M. Holland, Kerry Phillips, Nicola Poplawski, Milena Babic, Erika M Kwon Kim, Andrew H. Wei, Cecily Forsyth, Helen Mar Fan, Ian D Lewis, Julian Cooney, Rachel Susman, Lucy C Fox, Piers Blombery, Deepak Singhal, Devendra Hiwase, Andreas W Schreiber, Christopher N Hahn, Hamish S Scott, Paul P. Liu, Lucy A. Godley, Brown, Anna L, Homan, Claire, Drazer, Michael W, Yu, Kai, Ha, Thuong, Arts, Peer, King Smith, Sarah, Cheah, Jesse JC, Armstrong, Mark, Wang, Paul, Babic, Milena, Hahn, Christopher N, Scott, Hamish S, Godley, Lucy, and 64th Annual Meeting and Exposition of the American-Society-of-Hematology (ASH) New Orleans, US 10-13 December 2022

Subjects

Immunology, Cell Biology, Hematology, Biochemistry

Abstract

Germline variants in RUNX1, GATA2 and DDX41 may confer a predisposition to hereditary haematopoietic malignancies (HHMs) such as MDS and AML yet have distinct age ranges of malignancy diagnosis and a highly variable overall risk for leukemogenesis. The increased awareness and identification of carriers of these germline variants, particularly before development of malignancy, has changed the way in which individuals and families need to be managed in the clinic. Individuals need lifelong monitoring and may also need modification to treatments when malignancy does develop, compared to sporadic counterparts. Gaps in understanding pre-malignant states in HHM syndromes have hampered efforts to design effective clinical surveillance regimes, provide personalized pre-emptive treatments, and appropriate counselling to patients.

Published

2022

28. GoldVariants, a resource for sharing rare genetic variants detected in bleeding, thrombotic, and platelet disorders: Communication from the ISTH SSC Subcommittee on Genomics in Thrombosis and Hemostasis

Author

Juliana Perez Botero, Keith Gomez, Maha Othman, Willem H. Ouwehand, Kate Downes, Kathleen Freson, Marie-Christine Morel-Kopp, David-Alexandre Trégouët, Neil V. Morgan, José María Bastida, Shannon Brooks, Harald Schulze, Loredana Bury, José Rivera, Eva Leinoe, Karyn Megy, University of Cambridge [UK] (CAM), Cambridge University Hospitals - NHS (CUH), Royal North Shore Hospital (RNSH), The University of Sydney, Instituto de Investigación Biomédica de Salamanca [Salamanca, Spain] (IBSAL/CIC), Università degli Studi di Perugia (UNIPG), National University Hospital, Rigshospitalet, Copenhagen, Royal Free London NHS Foundation Trust, University of Birmingham [Birmingham], Queen's University [Kingston, Canada], Medical College of Wisconsin [Milwaukee] (MCW), Universidad de Murcia, University Hospital Wuerzburg, Bordeaux population health (BPH), Université de Bordeaux (UB)-Institut de Santé Publique, d'Épidémiologie et de Développement (ISPED)-Institut National de la Santé et de la Recherche Médicale (INSERM), and Catholic University of Leuven - Katholieke Universiteit Leuven (KU Leuven)

Subjects

Platelets, Platelet disorder, Hemorrhage, Genomics, Computational biology, 030204 cardiovascular system & hematology, 03 medical and health sciences, 0302 clinical medicine, Resource (project management), blood, MANAGEMENT, Humans, Medicine, genes, thrombosis, 030304 developmental biology, Hemostasis, 0303 health sciences, Science & Technology, business.industry, Communication, Genetic variants, Thrombosis, Hematology, Pathogenicity, medicine.disease, 3. Good health, Blood, Genes, Peripheral Vascular Disease, Mutation, platelets, Cardiovascular System & Cardiology, [SDV.SPEE]Life Sciences [q-bio]/Santé publique et épidémiologie, Blood Platelet Disorders, hemorrhage, mutation, business, Life Sciences & Biomedicine

Abstract

The implementation of high-throughput sequencing (HTS) technologies in research and diagnostic laboratories has linked many new genes to rare bleeding, thrombotic, and platelet disorders (BTPD), and revealed multiple genetic variants linked to those disorders, many of them being of uncertain pathogenicity when considering the accepted evidence (variant consequence, frequency in control datasets, number of reported patients, prediction models, and functional assays). The sequencing effort has also resulted in resources for gathering disease-causing variants associated with specific genes, but for BTPD, such well-curated databases exist only for a few genes. On the other hand, submissions by individuals or diagnostic laboratories to the variant database ClinVar are hampered by the lack of a submission process tailored to capture the specific features of hemostatic diseases. As we move toward the implementation of HTS in the diagnosis of BTPD, the Scientific and Standardization Committee for Genetics in Thrombosis and Haemostasis has developed and tested a REDCap-based interface, aimed at the community, to submit curated genetic variants for diagnostic-grade BTPD genes. Here, we describe the use of the interface and the initial submission of 821 variants from 30 different centers covering 14 countries. This open-access variant resource will be shared with the community to improve variant classification and regular bulk data transfer to ClinVar. ispartof: JOURNAL OF THROMBOSIS AND HAEMOSTASIS vol:19 issue:10 pages:2612-2617 ispartof: location:England status: published

Published

2021

29. Optimised insert design for improved single-molecule imaging and quantification through CRISPR-Cas9 mediated knock-in

Author

Abdullah O. Khan, Jack Yule, Stephen J. Hill, Alexandre Slater, Steven G. Thomas, Jeremy A. Pike, Carl W. White, Neil V. Morgan, and Natalie S. Poulter

Subjects

Receptors, CXCR4, lcsh:Medicine, Computational biology, Ligands, Article, Homology (biology), Cell Line, 03 medical and health sciences, 0302 clinical medicine, Genome editing, Tubulin, Gene knockin, Humans, CRISPR, Gene Knock-In Techniques, Super-resolution microscopy, Codon, Receptor, lcsh:Science, 030304 developmental biology, G protein-coupled receptor, Gene Editing, 0303 health sciences, Multidisciplinary, Chemistry, lcsh:R, Single Molecule Imaging, Clone Cells, Luminescent Proteins, Mutagenesis, Insertional, Template, 030220 oncology & carcinogenesis, lcsh:Q, CRISPR-Cas Systems

Abstract

The use of CRISPR-Cas9 genome editing to introduce endogenously expressed tags has the potential to address a number of the classical limitations of single molecule localisation microscopy. In this work we present the first systematic comparison of inserts introduced through CRISPR-knock in, with the aim of optimising this approach for single molecule imaging. We show that more highly monomeric and codon optimised variants of mEos result in improved expression at the TubA1B locus, despite the use of identical guides, homology templates, and selection strategies. We apply this approach to target the G protein-coupled receptor (GPCR) CXCR4 and show a further insert dependent effect on expression and protein function. Finally, we show that compared to over-expressed CXCR4, endogenously labelled samples allow for accurate single molecule quantification on ligand treatment. This suggests that despite the complications evident in CRISPR mediated labelling, the development of CRISPR-PALM has substantial quantitative benefits.

Published

2019

30. Potential genetic causes of miscarriage in euploid pregnancies: a systematic review

Author

Paul Smith, Emily Colley, Neil V. Morgan, Arri Coomarasamy, Stephanie Allen, and Susan Hamilton

Subjects

0301 basic medicine, Abortion, Habitual, DNA Copy Number Variations, Aneuploidy, Bioinformatics, Genomic Instability, Miscarriage, 03 medical and health sciences, 0302 clinical medicine, Pregnancy, Risk Factors, Recurrent miscarriage, medicine, Humans, Genetic Predisposition to Disease, Copy-number variation, Exome, Exome sequencing, Ploidies, 030219 obstetrics & reproductive medicine, business.industry, Obstetrics and Gynecology, medicine.disease, Abortion, Spontaneous, 030104 developmental biology, Reproductive Medicine, Karyotyping, Female, business, Comparative genomic hybridization

Abstract

BACKGROUND Approximately 50% of pregnancy losses are caused by chromosomal abnormalities, such as aneuploidy. The remainder has an apparent euploid karyotype, but it is plausible that there are cases of pregnancy loss with other genetic aberrations that are not currently routinely detected. Studies investigating the use of exome sequencing and chromosomal microarrays in structurally abnormal pregnancies and developmental disorders have demonstrated their clinical application and/or potential utility in these groups of patients. Similarly, there have been several studies that have sought to identify genes that are potentially causative of, or associated with, spontaneous pregnancy loss, but the evidence has not yet been synthesized. OBJECTIVE AND RATIONALE The objective was to identify studies that have recorded monogenic genetic contributions to pregnancy loss in euploid pregnancies, establish evidence for genetic causes of pregnancy loss, identify the limitations of current evidence, and make recommendations for future studies. This evidence is important in considering additional research into Mendelian causes of pregnancy loss and appropriate genetic investigations for couples experiencing recurrent pregnancy loss. SEARCH METHODS A systematic review was conducted in MEDLINE (1946 to May 2018) and Embase (1974 to May 2018). The search terms ‘spontaneous abortion’, ‘miscarriage’, ‘pregnancy loss’, or ‘lethal’ were used to identify pregnancy loss terms. These were combined with search terms to identify the genetic contribution including ‘exome’, ‘human genome’, ‘sequencing analysis’, ‘sequencing’, ‘copy number variation’, ‘single-nucleotide polymorphism’, ‘microarray analysis’, and ‘comparative genomic hybridization’. Studies were limited to pregnancy loss up to 20 weeks in humans and excluded if the genetic content included genes that are not lethal in utero, PGD studies, infertility studies, expression studies, aneuploidy with no recurrence risk, methodologies where there is no clinical relevance, and complex genetic studies. The quality of the studies was assessed using a modified version of the Newcastle–Ottawa scale. OUTCOMES A total of 50 studies were identified and categorized into three themes: whole-exome sequencing studies; copy number variation studies; and other studies related to pregnancy loss including recurrent molar pregnancies, epigenetics, and mitochondrial DNA aberrations. Putatively causative variants were found in a range of genes, including CHRNA1 (cholinergic receptor, nicotinic, alpha polypeptide 1), DYNC2H1 (dynein, cytoplasmic 2, heavy chain 1), and RYR1 (ryanodine receptor 1), which were identified in multiple studies. Copy number variants were also identified to have a causal or associated link with recurrent miscarriage. WIDER IMPLICATIONS Identification of genes that are causative of or predisposing to pregnancy loss will be of significant individual patient impact with respect to counselling and treatment. In addition, knowledge of specific genes that contribute to pregnancy loss could also be of importance in designing a diagnostic sequencing panel for patients with recurrent pregnancy loss and also in understanding the biological pathways that can cause pregnancy loss.

Published

2019

31. Sorting nexin 24 is required for α-granule biogenesis and cargo delivery in megakaryocytes

Author

Joanne Lacey, Simon J. Webster, Paul R. Heath, Chris J. Hill, Lucinda Nicholson-Goult, Bart E. Wagner, Abdullah O. Khan, Neil V. Morgan, Michael Makris, and Martina E. Daly

Subjects

Blood Platelets, Protein Transport, Humans, Hematology, DNA, Cytoplasmic Granules, Megakaryocytes, Sorting Nexins

Abstract

Germline defects affecting the DNA-binding domain of the transcription factor FLI1 are associated with a bleeding disorder that is characterized by the presence of large, fused α-granules in platelets. We investigated whether the genes showing abnormal expression in FLI1-deficient platelets could be involved in platelet α-granule biogenesis by undertaking transcriptome analysis of control platelets and platelets harboring a DNA-binding variant of FLI1. Our analysis identified 2,276 transcripts that were differentially expressed in FLI1-deficient platelets. Functional annotation clustering of the coding transcripts revealed significant enrichment for gene annotations relating to protein transport, and identified Sorting nexin 24 (SNX24) as a candidate for further investigation. Using an induced pluripotent stem cell-derived megakaryocyte model, SNX24 expression was found to be increased during the early stages of megakaryocyte differentiation and downregulated during proplatelet formation, indicating tight regulatory control during megakaryopoiesis. CRISPR-Cas9 mediated knockout (KO) of SNX24 led to decreased expression of immature megakaryocyte markers, CD41 and CD61, and increased expression of the mature megakaryocyte marker CD42b (P=0.0001), without affecting megakaryocyte polyploidisation, or proplatelet formation. Electron microscopic analysis revealed an increase in empty membrane-bound organelles in SNX24 KO megakaryocytes, a reduction in α-granules and an absence of immature and mature multivesicular bodies, consistent with a defect in the intermediate stage of α-granule maturation. Co-localization studies showed that SNX24 associates with each compartment of α-granule maturation. Reduced expression of CD62P and VWF was observed in SNX24 KO megakaryocytes. We conclude that SNX24 is required for α-granule biogenesis and intracellular trafficking of α-granule cargo within megakaryocytes.

Published

2021

32. A novel RUNX1 exon 3-7 deletion causing a familial platelet disorder

Author

Neil V. Morgan, Paula Page, Kate Downes, Joanne Mason, Kim Reay, Pavel Chudakou, Ibrahim Abdullah F Almazni, Kathleen Freson, Bethan Myers, and Alison Dawson-Meadows

Subjects

Adult, Male, 0301 basic medicine, platelet disorder, RUNX1, Platelet disorder, Cell, CNV, thrombocytopenia, 030204 cardiovascular system & hematology, Germline, Young Adult, 03 medical and health sciences, Exon, chemistry.chemical_compound, Blood Coagulation Disorders, Inherited, 0302 clinical medicine, medicine, Humans, Genetic Predisposition to Disease, Copy-number variation, Multiplex ligation-dependent probe amplification, Gene, Aged, business.industry, Bleeding, High-Throughput Nucleotide Sequencing, Exons, Hematology, General Medicine, Leukemia, Myeloid, Acute, 030104 developmental biology, medicine.anatomical_structure, chemistry, NGS, Core Binding Factor Alpha 2 Subunit, Cancer research, Blood Platelet Disorders, business

Abstract

Familial Platelet Disorder with associated Myeloid Malignancy (FPDMM) is a rare inherited disorder confirmed with the presence of a pathogenic germline RUNX1 variant and is thought to be heavily underdiagnosed. RUNX1 has also been found to be mutated in up to 10% of adult AML cases and other cell malignancies. We performed targeted next-generation sequencing and subsequent MLPA analysis in a kindred with multiple affected individuals with low platelet counts and a bleeding history. We detected a novel heterozygous exon 3-7 large deletion in the RUNX1 gene in all affected family members which is predicted to remove all of the Runt-homology DNA-binding domain and a portion of the Activation domain. Our results show that the combination of targeted NGS and MLPA analysis is an effective way to detect copy number variants (CNVs) which would be missed by conventional sequencing methods. This precise diagnosis offers the possibility of accurate counseling and clinical management in such patients who could go onto develop other cell malignancies. ispartof: PLATELETS vol:33 issue:2 pages:320-323 ispartof: location:England status: published

Published

2021

33. Heterozygous mutation SLFN14 K208N in mice mediates species-specific differences in platelet and erythroid lineage commitment

Author

Andrea Bacon, Christopher W Smith, Andrey V. Pisarev, Neil V. Morgan, Steve P. Watson, Vera P. Pisareva, Abdullah O. Khan, Sian Lax, Rachel J Stapley, and Elizabeth J. Haining

Subjects

0301 basic medicine, Hemolytic anemia, Blood Platelets, Heterozygote, Hematopoiesis and Stem Cells, Endoribonuclease, 030204 cardiovascular system & hematology, Biology, medicine.disease_cause, 03 medical and health sciences, Mice, 0302 clinical medicine, Endoribonucleases, medicine, Animals, Humans, Cell Lineage, Erythropoiesis, Thrombopoiesis, Mutation, Heterozygote advantage, Hematology, medicine.disease, Haematopoiesis, 030104 developmental biology, medicine.anatomical_structure, Cancer research, Bone marrow

Abstract

Schlafen 14 (SLFN14) has recently been identified as an endoribonuclease responsible for cleaving RNA to regulate and inhibit protein synthesis. Early studies revealed that members of the SLFN family are capable of altering lineage commitment during T-cell differentiation by using cell-cycle arrest as a means of translational control by RNase activity. SLFN14 has been reported as a novel gene causing an inherited macrothrombocytopenia and bleeding in human patients; however, the role of this endoribonuclease in megakaryopoiesis and thrombopoiesis remains unknown. To investigate this, we report a CRISPR knock-in mouse model of SLFN14 K208N homologous to the K219N mutation observed in our previous patient studies. We used hematological analysis, in vitro and in vivo studies of platelet and erythrocyte function, and analysis of spleen and bone marrow progenitors. Mice homozygous for this mutation do not survive to weaning age, whereas heterozygotes exhibit microcytic erythrocytosis, hemolytic anemia, splenomegaly, and abnormal thrombus formation, as revealed by intravital microscopy, although platelet function and morphology remain unchanged. We also show that there are differences in erythroid progenitors in the spleens and bone marrow of these mice, indicative of an upregulation of erythropoiesis. This SLFN14 mutation presents distinct species-specific phenotypes, with a platelet defect reported in humans and a severe microcytic erythrocytosis in mice. Thus, we conclude that SLFN14 is a key regulator in mammalian hematopoiesis and a species-specific mediator of platelet and erythroid lineage commitment.

Published

2021

34. Evidence that autosomal recessive spastic cerebral palsy-1 (CPSQ1) is caused by a missense variant in HPDL

Author

Diana Walsh, Graeme R. Clark, Ezequiel Martin, Neil V. Morgan, Louise Tee, Hannah Titheradge, Evan Reid, Mary O'Driscoll, Eamonn R. Maher, Bryndis Yngvadottir, Martin, Ezequiel [0000-0002-0051-8868], Reid, Evan [0000-0003-1623-7304], Maher, Eamonn R [0000-0002-6226-6918], and Apollo - University of Cambridge Repository

Subjects

0301 basic medicine, Genetics, cerebral palsy, business.industry, General Engineering, autosomal recessive, medicine.disease, inherited, Cerebral palsy, 03 medical and health sciences, 030104 developmental biology, 0302 clinical medicine, Spastic cerebral palsy, Genetic linkage, Paralysis, Spastic, Missense mutation, Medicine, Original Article, medicine.symptom, business, 030217 neurology & neurosurgery, Loss function, Exome sequencing

Abstract

A subset of individuals diagnosed with cerebral palsy will have an underlying genetic diagnosis. Previously, a missense variant in GAD1 was described as a candidate mutation in a single family diagnosed with autosomal recessive spastic cerebral palsy-1 (CPSQ1; OMIM 603513). Following the ascertainment of a further branch of the CPSQ1 kindred, we found that the previously reported GAD1 variant did not segregate with the neurological disease phenotype in the recently ascertained branch of the kindred. Following genetic linkage studies to map autozygous regions and whole-exome sequencing, a missense variant (c.527 T > C; p. Leu176Pro, rs773333490) in the HPDL gene was detected and found to segregate with disease status in both branches of the kindred. HPDL encodes a 371-amino acid protein (4-Hydroxyphenylpyruvate Dioxygenase Like) that localizes to mitochondria but whose function is uncertain. Recently, biallelic loss of function variants and missense substitution-causing variants in HPDL were reported to cause a childhood onset progressive spastic movement disorder with a variable presentation. These findings suggest that HPDL-related neurological disease may mimic spastic cerebral palsy and that GAD1 should not be included in diagnostic gene panels for inherited cerebral palsy., Morgan et al. report that a novel candidate mutation in the HPDL gene (but not GAD1) segregates with disease status within a kindred in which a locus for autosomal recessive spastic cerebral palsy-1 (CPSQ1; OMIM 603513, GAD1) was mapped previously (in part of the kindred)., Graphical Abstract

Published

2020

35. Cell-Free DNA in the Investigation of Miscarriage

Author

Stephanie Allen, Arri Coomarasamy, Neil V. Morgan, Susan Hamilton, Emily Colley, Paul Smith, Adam J. Devall, Helen Williams, and Siobhan Quenby

Subjects

medicine.medical_specialty, miscarriage, lcsh:Medicine, Maternal blood, Article, Miscarriage, cell-free DNA, 03 medical and health sciences, cytogenetic analysis, 0302 clinical medicine, 0502 economics and business, Medicine, Fetus, Pregnancy, 030219 obstetrics & reproductive medicine, business.industry, Obstetrics, QH, lcsh:R, 05 social sciences, Gestational age, General Medicine, medicine.disease, QP, First trimester, chromosomal abnormalities, Cell-free fetal DNA, Products of conception, 050211 marketing, RB, business

Abstract

Approximately one in four pregnancies result in pregnancy loss, and ~50% of these miscarriages are caused by chromosomal abnormalities. Genetic investigations are recommended after three consecutive miscarriages on products of conception (POC) tissue. Cell-free DNA (cfDNA) has been utilised for prenatal screening, but very little work has been carried out in nonviable pregnancies. We investigated the use of cfDNA from maternal blood to identify chromosomal abnormalities in miscarriage. One hundred and two blood samples from women experiencing a first trimester miscarriage were collected and stored. The mean gestational age was 7.1 weeks (range: 5&ndash, 11 weeks). In this research, samples without a genetic test result from POC were not analysed. CfDNA was extracted and analysed using a modified commercial genome-wide non-invasive prenatal test. No results were provided to the patient. In 57 samples, cytogenetic results from POC analysis were available. Chromosomal abnormalities were identified in 47% (27/57) of POC analyses, and cfDNA analysis correctly identified 59% (16/27) of these. In total, 75% (43/57) of results were correctly identified. The average cfDNA fetal fraction was 6% (2&ndash, 19%). In conclusion, cfDNA can be used to detect chromosomal abnormalities in miscarriages where the &lsquo, fetal fraction&rsquo, is high enough, however, more studies are required to identify variables that can affect the overall results.

Published

2020

36. Novel gene variants in patients with platelet-based bleeding using combined exome sequencing and RNAseq murine expression data

Author

Jasmeet S. Reyat, Rachel J Stapley, Neil V. Morgan, Susanne N. Wijesinghe, Ibrahim Abdullah F Almazni, Kellie R. Machlus, Jeremy A. Pike, and Abdullah O. Khan

Subjects

Blood Platelets, Candidate gene, Platelet disorder, Functional testing, Hemorrhage, Hematology, Computational biology, 030204 cardiovascular system & hematology, Biology, 03 medical and health sciences, Mice, 0302 clinical medicine, Cohort, Mutation, Exome Sequencing, Animals, Humans, Platelet, Exome, Gene, Genotyping, Exome sequencing

Abstract

Essentials Identifying genetic variants in platelet disorders is challenging due to its heterogenous nature. We combine WES, RNAseq, and python-based bioinformatics to identify novel gene variants. We find novel candidates in patient data by cross-referencing against a murine RNAseq model of thrombopoiesis. This innovative combined bioinformatic approach provides novel data for future research in the field. ABSTRACT: Background The UK Genotyping and Phenotyping of Platelets study has recruited and analyzed 129 patients with suspected heritable bleeding. Previously, 55 individuals had a definitive genetic diagnosis based on whole exome sequencing (WES) and platelet morphological and functional testing. A significant challenge in this field is defining filtering criteria to identify the most likely candidate mutations for diagnosis and further study. Objective Identify candidate gene mutations for the remaining 74 patients with platelet-based bleeding with unknown genetic cause, forming the basis of future re-recruitment and further functional testing and assessment. Methods Using python-based data frame indexing, we first identify and filter all novel and rare variants using a panel of 116 genes known to cause bleeding across the full cohort of WES data. This identified new variants not previously reported in this cohort. We then index the remaining patients, with rare or novel variants in known bleeding genes against a murine RNA sequencing dataset that models proplatelet-forming megakaryocytes. Results Filtering against known genes identified candidate variants in 59 individuals, including novel variants in several known genes. In the remaining cohort of "unknown" patients, indexing against differentially expressed genes revealed candidate gene variants in several novel unreported genes, focusing on 14 patients with a severe clinical presentation. Conclusions We identified candidate mutations in a cohort of patients with no previous genetic diagnosis. This work involves innovative coupling of RNA sequencing and WES to identify candidate variants forming the basis of future study in a significant number of undiagnosed patients.

Published

2020

37. Mutation in GNE is associated with severe congenital thrombocytopenia

Author

Ben B. Johnson, Gillian C. Lowe, Steve P. Watson, Jayashree Motwani, Jane Futterer, Michael Williams, Neil V. Morgan, Michael A. Simpson, and Amanda Dalby

Subjects

0301 basic medicine, medicine.medical_specialty, business.industry, Immunology, Congenital thrombocytopenia, Cell Biology, Hematology, Biochemistry, Gastroenterology, 03 medical and health sciences, 030104 developmental biology, 0302 clinical medicine, Text mining, Internal medicine, Mutation (genetic algorithm), Medicine, Platelet, Letter to Blood, business, Normal range, 030215 immunology

Abstract

TO THE EDITOR: Inherited thrombocytopenias are associated with bleeding of all types of severity depending on the reduction in platelet count and whether there is altered platelet function.[1][1] The normal range for platelet counts varies by up to threefold, but an individual’s platelet count is

Published

2018

38. Phenotype description and response to thrombopoietin receptor agonist in DIAPH1-related disorder

Author

Willem H. Ouwehand, Sofia Papadia, Samantha F. Moore, Keith Gomez, Maria Luisa Lozano, Claire Burney, Kate Downes, Chantal Thys, Neil V. Morgan, José Rivera, Kathleen Freson, Cheng Hock Toh, Michael Laffan, Sarah K Westbury, Wendy N. Erber, Samya Obaji, Carly Kempster, Andrew D Mumford, Teresa Sevivas, Medical Research Council (MRC), Westbury, Sarah K [0000-0002-0950-8148], Papadia, Sofia [0000-0002-9222-3812], Gomez, Keith [0000-0002-8934-0700], and Apollo - University of Cambridge Repository

Subjects

Adult, Male, 0301 basic medicine, Agonist, Adolescent, medicine.drug_class, Eltrombopag, Formins, Biology, Young Adult, 03 medical and health sciences, chemistry.chemical_compound, 0302 clinical medicine, Megakaryocyte, medicine, Humans, DIAPH1, Child, Genetic Association Studies, Thrombopoietin, Adaptor Proteins, Signal Transducing, Aged, Thrombopoietin receptor, Genetics, NIHR BioResource–Rare Diseases, Genetic heterogeneity, Hematology, Middle Aged, Thrombocytopenia, Phenotype, Pedigree, 030104 developmental biology, medicine.anatomical_structure, chemistry, Child, Preschool, Female, Receptors, Thrombopoietin, Biomarkers, Signal Transduction, 030215 immunology

Abstract

The heritable thrombocytopenias (HTs) are genetically heterogeneous rare disorders in whichreduced circulating platelet levels may be associated with nonhematological features. Amongrecently discovered HTs, DIAPH1-related disorder (D-RD; OMIM #124900) was initially reported in pedigrees with macrothrombocytopenia and hearing loss. This phenotype segregated with aheterozygous p.R1213* variant in DIAPH1, which encodes the cytoskeletal regulator diaphanoushomolog 1 (DIAPH1). This predicted truncation of the DIAPH1 C terminus diaphanous autoregulatory domain (DAD) and was proposed to confer gain-of-function, resulting in megakaryocyte (MK) cytoskeletal dysregulation and impaired proplatelet formation. Macrothrombocytopenia and hearing loss have subsequently been reported in further isolated pedigrees with DAD DIAPH1 variants,4-6 suggesting that D-RD is a distinct syndromic HT. However, other descriptions of similar DIAPH1 variants include hearing loss but not hematological findings. To provide a full phenotypic description of D-RD and the relationship with different DIAPH1 variants, we report detailed hematological findings from 5 D-RD pedigrees, including the in vitro response and clinical outcome of treatment with the thrombopoietin (TPO) receptor agonisteltrombopag.

Published

2018

39. Schlafen 14 (SLFN14) is a novel antiviral factor involved in the control of viral replication

Author

Sarah J. Fletcher, Ok Sarah Shin, Mukesh Kumar, Seong Wook Seo, Rak Kyun Seong, Neil V. Morgan, Young Ki Choi, and Ji Ae Kim

Subjects

0301 basic medicine, Herpesvirus 3, Human, Receptors, Retinoic Acid, viruses, Immunology, Biology, Virus Replication, medicine.disease_cause, Article, Virus, Mice, 03 medical and health sciences, Immune system, Orthomyxoviridae Infections, Viral entry, Interferon, Endoribonucleases, Influenza, Human, medicine, Animals, Humans, Immunology and Allergy, RNA, Small Interfering, Viral shedding, Infection Control, Gene knockdown, Macrophages, Immunity, Varicella zoster virus, virus diseases, Epithelial Cells, Hematology, Virology, RAW 264.7 Cells, 030104 developmental biology, Gene Expression Regulation, Viral replication, A549 Cells, Influenza A virus, Varicella Zoster Virus Infection, RNA Helicases, Signal Transduction, medicine.drug

Abstract

Schlafen (SLFN) proteins have been suggested to play important functions in cell proliferation and immune cell development. In this study, we determined the antiviral activities of putative RNA-helicase domain-containing SLFN14. Murine SLFN14 expression was specifically induced by TLR3-mediated pathways and type I interferon (IFN) in RAW264.7 mouse macrophages. To examine the role of SLFN during viral infection, cells were infected with either wild-type PR8 or delNS1/PR8 virus. SLFN14 expression was specifically induced following influenza virus infection. Overexpression of SLFN14 in A549 cells reduced viral replication, whereas knockdown of SLFN14 in RAW264.7 cells enhanced viral titers. Furthermore, SLFN14 promoted the delay in viral NP translocation from cytoplasm to nucleus and enhanced RIG-I-mediated IFN-β signaling. In addition, SLFN14 overexpression promoted antiviral activity against varicella zoster virus (VZV), a DNA virus. In conclusion, our data suggest that SLFN14 is a novel antiviral factor for both DNA and RNA viruses.

Published

2017

40. Comparison of multiple electrode aggregometry with lumi‐aggregometry for the diagnosis of patients with mild bleeding disorders

Author

Neil V. Morgan, Paul Harrison, Sian Drake, Steve P. Watson, and R. Al Ghaithi

Subjects

Adult, Male, medicine.medical_specialty, Pathology, Adolescent, Light, Platelet Aggregation, Platelet Function Tests, Platelet aggregation, 030204 cardiovascular system & hematology, Severity of Illness Index, Gastroenterology, Young Adult, 03 medical and health sciences, chemistry.chemical_compound, 0302 clinical medicine, Predictive Value of Tests, Internal medicine, Electric Impedance, medicine, Humans, Platelet, Child, Ristocetin, Electrodes, Aged, Whole blood, Aspirin, Platelet Count, business.industry, Reproducibility of Results, Hematology, Blood Coagulation Disorders, Middle Aged, Clopidogrel, United Kingdom, 3. Good health, chemistry, Case-Control Studies, Child, Preschool, Platelet-rich plasma, Female, Arachidonic acid, business, 030215 immunology, medicine.drug

Abstract

Essentials There is a clinical need for new technologies to measure platelet function in whole blood. Mild bleeding disorders were evaluated using multiple electrode aggregometry (MEA). MEA is insensitive at detecting patients with mild platelet function and secretion defects. More studies are required to investigate MEA in patients with a defined set of platelet disorders.Background Multiple electrode aggregometry (MEA) measures changes in electrical impedance caused by platelet aggregation in whole blood. This approach is faster, more convenient and offers the advantage over light transmission aggregometry (LTA) of assessing platelet function in whole blood and reducing preanalytical errors associated with preparation of platelet-rich plasma (PRP). Several studies indicate the utility of this method in assessing platelet inhibition in individuals taking antiplatelet agents (e.g. aspirin and clopidogrel). Objective Our current study sought to evaluate the ability of MEA in diagnosing patients with mild bleeding disorders by comparison with light transmission lumi-aggregometry (lumi-LTA). Methods Forty healthy subjects and 109 patients with a clinical diagnosis of a mild bleeding disorder were recruited into the UK Genotyping and Phenotyping of Platelets study (GAPP, ISRCTN 77951167). MEA was performed on whole blood using one or two concentrations of ADP, PAR-1 peptide, arachidonic acid and collagen. Lumi-LTA was performed in PRP using several concentrations of ADP, adrenaline, arachidonic acid, collagen, PAR-1 peptide and ristocetin. Results Of 109 patients tested, 54 (49%) patients gave abnormal responses by lumi-LTA to one or more agonists. In contrast, only 16 (15%) patients were shown to have abnormal responses to one or more agonists by MEA. Conclusions In this study we showed that MEA is less sensitive in identifying patients with abnormal platelet function relative to lumi-LTA.

Published

2017

41. Comprehensive Description of Monoallelic GP1BA Variants Associated with Thrombocytopenia

Author

Nihr BioResource, Lucy FitzGibbon, Ernest Turro, Neil V. Morgan, Rachel C Peck, Sarah K Westbury, Karyn Megy, Andrew D Mumford, José Rivera, Daniel Greene, Walter H. Kahr, and Kate Downes

Subjects

Genetics, GP1BA, business.industry, Immunology, Medicine, Cell Biology, Hematology, business, Biochemistry

Abstract

GP1BA encodes the glycoprotein (GP) 1bα subunit of the GP1b/IX/V complex, the platelet receptor for von Willebrand factor (VWF) and a mediator of outside-in signalling that contributes to platelet activation. Biallelic variants in GPIBA that prevent surface expression of GPIB/IX/V cause the recessive disorder Bernard Soulier Syndrome (BSS; OMIM #23100) in which there is often severe bleeding caused by thrombocytopenia and platelet dysfunction. Thrombocytopenia has also been associated with monoallelic missense variants in the GP1bα R loop (residues 227-242) which enhance VWF binding (platelet-type von Willebrand disease (pVWD); OMIM #177820). Other monoallelic GPIBA missense variants such as the Bolzano variant (p.Ala172Val; OMIM #153670) have been associated with dominant thrombocytopenia without altered VWF levels. In order to better describe the relationship between monoallelic GPIBA variants and thrombocytopenia we evaluated data from the NIHR BioResource for Rare Diseases, (NBR-RD) and the Inherited Platelet Disorders programmes at the Universities of Birmingham (UK), Murcia (Spain) and Toronto (Canada) in which patients with unexplained platelet disorders underwent diagnostic next generation sequencing. Using the BeviMed method for genetic association we compared the genotypes at rare nonsynoymous variants of 105 unrelated thrombocytopenia cases (platelet count (PLT) 15. These were present in 29 index cases (18 females, median age 37 years) with unexplained thrombocytopenia and included the variant predicting the p.Asn150Ser substitution which was identified in seven independent index cases. The variants comprised 18 missense, two inframe insertions (one with an additional missense change) and one insertion resulting in a frame shift. Seven had been previously associated with thrombocytopenia. Sixteen of the variants predicted amino acid substitutions or single residue insertions within the GP1bα leucine rich repeat region (LRR; residues 48-200) or in adjacent regions of the LRR N- and C-terminal caps. Cases with variants in the LRR region typically displayed mild mucocutaneous bleeding, abnormal bleeding after minor trauma or surgery and heavy menstrual bleeding. The platelet count was typically 60-100 x109/L and mean platelet volume greater than 11 fL. There were two missense variants in the GP1bα R loop that have been previously associated with pVWD and two further previously unreported missense variants in the cytoplasmic domain. The final variant was a monoallelic single nucleotide insertion predicted to cause a frame shift and absent expression of GP1bα and has been previously reported as a biallelic variant associated with BSS. These data indicate that in a multicentre cross-sectional cohort of cases with otherwise unexplained thrombocytopenia, monoallelic missense GPIBA variants affecting the LRR or adjacent regions were more prevalent than R loop variants associated with pVWD or variants causing absent GP1bα expression associated with biallelic BSS. The LRR region contains the GP1bα-VWF binding site which is predicted to be disrupted by the missense variants observed in this study. The LRR region is also the location of the GP1bα Bolzano variant and six other monoallelic variants previously associated with thrombocytopenia in previous single case reports. These observations extend the repertoire of GPIBA variants associated with thrombocytopenia and although requiring experimental confirmation of pathogenicity, suggest a common molecular pathogenesis for dominant GPIBA-associated thrombocytopenia in which reduced circulating platelet numbers arises from defective GP1bα-VWF interactions. Figure Disclosures Turro: Tachyon Ventures: Other: Partner & Scientific Director.

Published

2020

42. An adaptable analysis workflow for characterization of platelet spreading and morphology

Author

Victoria A. Simms, Neil V. Morgan, Jeremy A. Pike, Steven G. Thomas, Christopher W Smith, Iain B. Styles, Natalie S. Poulter, and Abdullah O. Khan

Subjects

0301 basic medicine, Blood Platelets, Computer science, 030204 cardiovascular system & hematology, Interactive Learning, Image analysis, Workflow, 03 medical and health sciences, 0302 clinical medicine, Software, Methods, Image Processing, Computer-Assisted, Humans, Platelet, Protocol (object-oriented programming), business.industry, Pattern recognition, Hematology, General Medicine, Image segmentation, Characterization (materials science), 030104 developmental biology, machine learning, platelets, Artificial intelligence, spreading, business, Research Article

Abstract

The assessment of platelet spreading through light microscopy, and the subsequent quantification of parameters such as surface area and circularity, is a key assay for many platelet biologists. Here we present an analysis workflow which robustly segments individual platelets to facilitate the analysis of large numbers of cells while minimising user bias. Image segmentation is performed by interactive learning and touching platelets are separated with an efficient semi-automated protocol. We also use machine learning methods to robustly automate the classification of platelets into different subtypes. These adaptable and reproducible workflows are made freely available and are implemented using the open source software KNIME and ilastik.

Published

2020

43. High-throughput platelet spreading analysis: a tool for the diagnosis of platelet-based bleeding disorders

Author

Abdullah O. Khan, Phillip L R Nicolson, Gillian C. Lowe, Steven G. Thomas, Rashid Hafidh Rashid Al Ghaithi, Neil V. Morgan, Annabel Maclachlan, Jeremy A. Pike, and Steve P. Watson

Subjects

Blood Platelets, Platelet Aggregation, Platelet Function Tests, business.industry, Hemorrhage, Hematology, Bioinformatics, Laboratory.hematology, Text mining, Medicine, Humans, Platelet, Blood Platelet Disorders, business, Online Only Articles, Throughput (business)

Published

2019

44. Post-Translational Polymodification of β1 Tubulin Regulates Motor Protein Localisation in Platelet Production and Function

Author

Abdullah O. Khan, Alexandre Slater, Annabel Maclachlan, Phillip L.R. Nicolson, Jeremy A. Pike, Jasmeet S. Reyat, Jack Yule, Rachel Stapley, Steven G. Thomas, and Neil V. Morgan

Subjects

Gene isoform, biology, Tubulin—tyrosine ligase, Chemistry, Cell biology, Motor protein, Tubulin, medicine.anatomical_structure, Polyglycylation, Megakaryocyte, Microtubule, biology.protein, medicine, Platelet activation, Cytoskeleton, Polyglutamylation

Abstract

Microtubules are ubiquitously expressed cytoskeletal structures responsible for a host of cellular processes from division to cargo transport. In specialised cells, the expression of specific isoforms of tubulin and their subsequent post-translational modifications are thought to drive and co-ordinate unique morphologies and behaviours. The mechanisms by which {beta}-1 tubulin (encoded by TUBB1), the platelet and megakaryocytic specific {beta}-tubulin isoform required for platelet production and function, drives these processes remains poorly understood. We investigate the effects of two key tubulin post-translational polymodifications (polyglutamylation and polyglycylation) on the glutamate rich C-terminus of {beta}-1 tubulin using a cohort of thrombocytopenic patients, human induced pluripotent stem cell (iPSC) derived megakaryocytes, and healthy human donor platelets. We find that while megakaryocytes (MKs) are positive for both polymodifications, polyglycylation is substantially reduced on platelets. On platelet activation, the marginal band becomes heavily polyglutamylated, which drives the mobilisation of motor proteins, including axonemal dynein, to achieve the shape change required for the haemostatic role of platelets. Finally, we show that a number of modifying enzymes (Tubulin Tyrosine Like Ligases (TTLLs) and Cytosolic Carboxypeptidases (CCPs)) are up-regulated through MK maturation. In platelets, a single polyglutamylase (TTLL7) is expressed to mediate the polyglutamylation of the marginal band required for shape change on activation. Finally, we report a novel disease causing gene in multiple families (TTLL10) resulting in bleeding despite normal platelet production and function. This work highlights the importance of a complex regulatory mechanism driven by both cell specific tubulin isoform expression and differential post-translational modification to drive specialist function, the loss of which results in disease states.nnnnO_FIG O_LINKSMALLFIG WIDTH=183 HEIGHT=200 SRC="FIGDIR/small/595868_fig1.gif" ALT="Figure 1">nView larger version (20K):norg.highwire.dtl.DTLVardef@2ea097org.highwire.dtl.DTLVardef@131582corg.highwire.dtl.DTLVardef@93b671org.highwire.dtl.DTLVardef@1aee018_HPS_FORMAT_FIGEXP M_FIG O_FLOATNOFig. 1.C_FLOATNO Graphical AbstractIn this work we report a system of reversible polymodification (polyglutamylation and polyglycylation) of the MK and platelet specific -1 tubulin isoform required for platelet production and function. These polymodifications are driven by an up-regulation of key Tubulin Tyrosine Like Ligases (TTLLs) which mediate the addition of single glutamate or glycine residues (initiases which trigger monogluytamylation or monoglycylation), and elongases which extend a glutamate or glycine tail (polyglutamylation and polyglycylation respectively). These processes are reversed by Cytosolic Carboxypeptidase (CCP) enzymes). MKs express a range of TTLLs and CCPs, while platelets only express a single polyglutamylase, TTLL7.nnC_FIG

Published

2019

45. Investigation of the contribution of an underlying platelet defect in women with unexplained heavy menstrual bleeding

Author

Gillian C, Lowe, Roksana, Fickowska, Rashid, Al Ghaithi, Annabel, Maclachlan, Paul, Harrison, Will, Lester, Steve P, Watson, Bethan, Myers, Justin, Clark, and Neil V, Morgan

Subjects

Adult, Blood Platelets, Platelet Aggregation, Platelet Function Tests, Platelet Count, Plenary Paper, Middle Aged, bleeding, platelet function defects, Blood Cell Count, heavy menstrual bleeding, Phenotype, platelets, Humans, Female, Aggregometry, Blood Coagulation, Mean Platelet Volume, Menorrhagia

Abstract

Heavy menstrual bleeding (HMB) is often undiagnosed in women and can cause discomfort and distress. A haemostatic cause for excessive bleeding is often not routinely investigated and can lead to hysterectomy at an early age. A prospective cohort study was carried out to determine whether certain patients with unexplained HMB have an underlying platelet function defect (PFD). The Genotyping and Phenotyping of Platelets (GAPP) study recruited 175 women with HMB and 44 unrelated volunteers from 25 Haemophilia Centres across the UK, and a tertiary gynaecology service. Bleeding history was assessed using the International Society on Thrombosis and Haemostasis Bleeding Assessment Tool (ISTH-BAT). Platelet count, platelet size, haemoglobin and mean corpuscular volume were measured in whole blood using the Sysmex XN-1000 Haematology Analyzer. Platelet function testing using lumiaggregometry and flow cytometry was performed in patients included in this study. A PFD was identified in 47% (82/175) of patients with HMB. Cutaneous bleeding was the most frequent additional bleeding symptom (89% in PFD and 83% with no PFD). Whole blood platelet count was significantly lower (P

Published

2018

46. Optimised CRISPR-Cas9 mediated single molecule imaging for accurate quantification through endogenous expression

Author

Stephen J. Hill, Natalie S. Poulter, Neil V. Morgan, Alexandre Slater, Abdullah O. Khan, Steven G. Thomas, Carl W. White, Jeremy A. Pike, and Jack Yule

Subjects

0303 health sciences, Chemistry, Endogeny, Locus (genetics), Computational biology, Single Molecule Imaging, Homology (biology), 03 medical and health sciences, 0302 clinical medicine, Genome editing, 030220 oncology & carcinogenesis, CRISPR, Receptor, 030304 developmental biology, G protein-coupled receptor

Abstract

The use of CRISPR-Cas9 genome editing to introduce endogenously expressed tags has the potential to address a number of the classical limitations of single molecule localisation microscopy. In this work we present the first systematic comparison of inserts introduced through CRISPR- knock in, with the aim of optimising this approach for single molecule imaging. We show that more highly monomeric and codon optimised variants of mEos result in improved expression at the TubA1B locus, despite the use of identical guides, homology templates, and selection strategies. We apply this approach to target the G protein-coupled receptor (GPCR) CXCR4 and show a further insert dependent effect on expression and protein function. Finally, we show that compared to over-expressed CXCR4, endogenously labelled samples allow for accurate single molecule quantification on ligand treatment. This suggests that despite the complications evident in CRISPR mediated labelling, the development of CRISPR-PALM has substantial quantitative benefits.

Published

2018

47. Role of the novel endoribonuclease SLFN14 and its disease-causing mutations in ribosomal degradation

Author

Sarah J, Fletcher, Vera P, Pisareva, Abdullah O, Khan, Andrew, Tcherepanov, Neil V, Morgan, and Andrey V, Pisarev

Subjects

HEK293 Cells, RNA, Ribosomal, Endoribonucleases, Mutation, Missense, Animals, Humans, Rabbits, Ribosomes, Thrombocytopenia, Cells, Cultured, Article, RNA, Ribosomal, 5.8S

Abstract

Platelets are anucleate and mostly ribosome-free cells within the bloodstream, derived from megakaryocytes within bone marrow and crucial for cessation of bleeding at sites of injury. Inherited thrombocytopenias are a group of disorders characterized by a low platelet count and are frequently associated with excessive bleeding. SLFN14 is one of the most recently discovered genes linked to inherited thrombocytopenia where several heterozygous missense mutations in SLFN14 were identified to cause defective megakaryocyte maturation and platelet dysfunction. Yet, SLFN14 was recently described as a ribosome-associated protein resulting in rRNA and ribosome-bound mRNA degradation in rabbit reticulocytes. To unveil the cellular function of SLFN14 and the link between SLFN14 and thrombocytopenia, we examined SLFN14 (WT/mutants) in in vitro models. Here, we show that all SLFN14 variants colocalize with ribosomes and mediate rRNA endonucleolytic degradation. Compared to SLFN14 WT, expression of mutants is dramatically reduced as a result of post-translational degradation due to partial misfolding of the protein. Moreover, all SLFN14 variants tend to form oligomers. These findings could explain the dominant negative effect of heterozygous mutation on SLFN14 expression in patients’ platelets. Overall, we suggest that SLFN14 could be involved in ribosome degradation during platelet formation and maturation.

Published

2018

48. Role of the novel endoribonuclease SLFN14 and its disease causing mutations in ribosomal degradation

Author

Andrew Tcherepanov, Vera P. Pisareva, Andrey V. Pisarev, Neil V. Morgan, Sarah J. Fletcher, and Abdullah O. Khan

Subjects

0303 health sciences, Endoribonuclease, Mutant, Ribosomal RNA, Biology, Ribosome, 3. Good health, Cell biology, 03 medical and health sciences, 0302 clinical medicine, medicine.anatomical_structure, Megakaryocyte, medicine, Missense mutation, Platelet, Gene, 030304 developmental biology, 030215 immunology

Abstract

Platelets are anucleate and mostly ribosome-free cells within the bloodstream, derived from megakaryocytes within bone marrow and crucial for cessation of bleeding at sites of injury. Inherited thrombocytopenias are a group of disorders characterized by alow platelet count and are frequently associated with excessive bleeding. SLFN14 is one of the most recently discovered genes linked to inherited thrombocytopenia where several heterozygous missense mutations in SLFN14 were identified to cause defective megakaryocyte maturation and platelet dysfunction. Yet, SLFN14 was recently described as a ribosome-associated protein resulting in rRNA and ribosome-bound mRNA degradation in rabbit reticulocytes. To unveil the cellular function of SLFN14 and the link between SLFN14 and thrombocytopenia, we examined SLFN14 (WT/mutants) in in vitro models. Here, we show that all SLFN14 variants co-localize with ribosomes and mediate rRNA endonucleolytic degradation and ribosome clearance. Compare dto SLFN14 WT, expression of mutants is dramatically reduced as a result of post-translational degradation due to partial misfolding of the protein. Moreover, all SLFN14 variants tend to form oligomers. These findings could explain the dominant negative effect of heterozygous mutation on SLFN14 expression in patients’ platelets. Overall we suggest that SLFN14 could be involved in ribosome degradation during platelet formation and maturation.

Published

2018

49. Defective Leukocyte Adhesion and Chemotaxis Contributes to Combined Immunodeficiency in Humans with Autosomal Recessive MST1 Deficiency

Author

Helen Griffin, Dawn Barge, Louise J. Tee, Mario Abinun, Sophie Hambleton, Mauro Santibanez Koref, Simi Ali, Neil V. Morgan, Andrew J. Cant, Michael Jackson, Peter D. Arkwright, Eamonn R. Maher, Graeme O'Boyle, Tarana Singh Dang, Karin R. Engelhardt, Joseph D. P. Willet, Stephen M. Hughes, Louise N. Reynard, Maher, Eamonn [0000-0002-6226-6918], and Apollo - University of Cambridge Repository

Subjects

0301 basic medicine, MST1, Immunology, Nonsense mutation, Intercellular Adhesion Molecule-1, Genes, Recessive, Context (language use), STK4, Protein Serine-Threonine Kinases, Biology, Immunophenotyping, 03 medical and health sciences, Journal Article, Cell Adhesion, medicine, Humans, Immunology and Allergy, Lymphocytes, chemotaxis, Cell adhesion, Immunodeficiency, lymphocyte adhesion, Siblings, Immunologic Deficiency Syndromes, Intracellular Signaling Peptides and Proteins, Chemotaxis, medicine.disease, Phenotype, Pedigree, Combined immunodeficiency, Chemotaxis, Leukocyte, 030104 developmental biology, Child, Preschool, Astute Clinician Report, Female, CD4 lymphopenia, sub_biomedicalsciences

Abstract

PURPOSE\ud \ud To investigate the clinical and functional aspects of MST1 (STK4) deficiency in a profoundly CD4-lymphopenic kindred with a novel homozygous nonsense mutation in STK4. Although recent studies have described the cellular effects of murine Mst1 deficiency, the phenotype of MST1-deficient human lymphocytes has yet to be fully explored. Patient lymphocytes were therefore investigated in the context of current knowledge of murine Mst1 deficiency.\ud \ud METHODS\ud \ud Genetic etiology was identified by whole exome sequencing of genomic DNA from two siblings, combined with linkage analysis in the wider family. MST1 protein expression was assessed by immunoblotting. The ability of patient lymphocytes to adhere to ICAM-1 under flow conditions was measured, and transwell assays were used to assess chemotaxis. Chemokine receptor expression was examined by flow cytometry and receptor signalling by immunoblotting.\ud \ud RESULTS\ud \ud A homozygous nonsense mutation in STK4 (c.442C > T, p.Arg148Stop) was found in the patients, leading to a lack of MST1 protein expression. Patient leukocytes exhibited deficient chemotaxis after stimulation with CXCL11, despite preserved expression of CXCR3. Patient lymphocytes were also unable to bind effectively to immobilised ICAM-1 under flow conditions, in keeping with a failure to develop high affinity binding.\ud \ud CONCLUSION\ud \ud The observed abnormalities of adhesion and migration imply a profound trafficking defect among human MST1-deficient lymphocytes. By analogy with murine Mst1 deficiency and other defects of leucocyte trafficking, this is likely to contribute to immunodeficiency by impairing key aspects of T-cell development and function such as positive selection in the thymus, thymic egress and immune synapse formation in the periphery.

Published

2016

50. ISTH Advanced Training Course on platelet bleeding disorders: How should they be investigated?

Author

Timothy D. Warner, José Rivera, Martina E. Daly, Steve P. Watson, Paul Harrison, Andrew M. Paterson, Gillian C. Lowe, and Neil V. Morgan

Subjects

0301 basic medicine, medicine.medical_specialty, business.industry, Training course, Hematology, General Medicine, 030204 cardiovascular system & hematology, 03 medical and health sciences, 030104 developmental biology, 0302 clinical medicine, Internal medicine, Medicine, Platelet, business

Published

2016