Your search keyword '"Read JF"' showing total 10 results

1. SPEECH TRAINING AIDS FOR SMALL CHILDREN

Author

ANGUS, JAS, primary and READ, JF, additional

Published

2024

2. Immunoinflammatory responses to febrile lower respiratory infections in infants display uniquely complex/intense transcriptomic profiles

Author

Jones, AC, Anderson, D, Galbraith, S, Fantino, E, Cardenas, DG, Read, JF, Serralha, M, Holt, BJ, Strickland, DH, Sly, Peter, Bosco, A, Holt, PG, Jones, AC, Anderson, D, Galbraith, S, Fantino, E, Cardenas, DG, Read, JF, Serralha, M, Holt, BJ, Strickland, DH, Sly, Peter, Bosco, A, and Holt, PG

Published

2019

3. Mapping Lung Hematopoietic Progenitors: Developmental Kinetics and Response to Influenza A Infection.

Author

Mincham KT, Lauzon-Joset JF, Read JF, Holt PG, Stumbles PA, and Strickland DH

Subjects

Animals, Mice, Kinetics, Hematopoietic Stem Cells virology, Hematopoietic Stem Cells metabolism, Lung virology, Lung pathology, Orthomyxoviridae Infections virology, Orthomyxoviridae Infections immunology, Orthomyxoviridae Infections pathology, Influenza A virus, Mice, Inbred C57BL

Abstract

The bone marrow is a specialized niche responsible for the maintenance of hematopoietic stem and progenitor cells during homeostasis and inflammation. Recent studies, however, have extended this essential role to the extramedullary and extravascular lung microenvironment. Here, we provide further evidence for a reservoir of hematopoietic stem and progenitor cells within the lung from Embryonic Day 18.5 until adulthood. These lung progenitors display distinct microenvironment-specific developmental kinetics compared with their bone marrow counterparts, exemplified by a rapid shift from a common myeloid to a megakaryocyte-erythrocyte progenitor-dominated niche with increasing age. In adult mice, influenza A viral infection results in a transient reduction in multipotent progenitors within the lungs, with a parallel increase in downstream granulocyte-monocyte progenitors and dendritic cell populations associated with acute viral infections. Our findings suggest that lung hematopoietic progenitors play a role in reestablishing immunological homeostasis in the respiratory mucosa, which may have significant clinical implications for maintaining pulmonary health after inflammatory perturbation.

Published

2024

4. Single cell transcriptomics reveals cell type specific features of developmentally regulated responses to lipopolysaccharide between birth and 5 years.

Author

Read JF, Serralha M, Armitage JD, Iqbal MM, Cruickshank MN, Saxena A, Strickland DH, Waithman J, Holt PG, and Bosco A

Subjects

Infant, Newborn, Humans, Monocytes, Signal Transduction, Gene Expression Regulation, Poly I-C pharmacology, Poly I-C metabolism, Lipopolysaccharides pharmacology, Lipopolysaccharides metabolism, Transcriptome

Abstract

Background: Human perinatal life is characterized by a period of extraordinary change during which newborns encounter abundant environmental stimuli and exposure to potential pathogens. To meet such challenges, the neonatal immune system is equipped with unique functional characteristics that adapt to changing conditions as development progresses across the early years of life, but the molecular characteristics of such adaptations remain poorly understood. The application of single cell genomics to birth cohorts provides an opportunity to investigate changes in gene expression programs elicited downstream of innate immune activation across early life at unprecedented resolution., Methods: In this study, we performed single cell RNA-sequencing of mononuclear cells collected from matched birth cord blood and 5-year peripheral blood samples following stimulation (18hrs) with two well-characterized innate stimuli; lipopolysaccharide (LPS) and Polyinosinic:polycytidylic acid (Poly(I:C))., Results: We found that the transcriptional response to LPS was constrained at birth and predominantly partitioned into classical proinflammatory gene upregulation primarily by monocytes and Interferon (IFN)-signaling gene upregulation by lymphocytes. Moreover, these responses featured substantial cell-to-cell communication which appeared markedly strengthened between birth and 5 years. In contrast, stimulation with Poly(I:C) induced a robust IFN-signalling response across all cell types identified at birth and 5 years. Analysis of gene regulatory networks revealed IRF1 and STAT1 were key drivers of the LPS-induced IFN-signaling response in lymphocytes with a potential developmental role for IRF7 regulation., Conclusion: Additionally, we observed distinct activation trajectory endpoints for monocytes derived from LPS-treated cord and 5-year blood, which was not apparent among Poly(I:C)-induced monocytes. Taken together, our findings provide new insight into the gene regulatory landscape of immune cell function between birth and 5 years and point to regulatory mechanisms relevant to future investigation of infection susceptibility in early life., Competing Interests: JFR and AB are co-inventors on a patent application that is related to this work. JFR and AB are co-founders, equity holders, and directors of the startup company Respiradigm Pty Ltd and subsidiary First Breath Health Pty Ltd that are related to this work. AB is the founder of the startup company INSiGENe Pty Ltd that is unrelated to this work. The remaining authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2023 Read, Serralha, Armitage, Iqbal, Cruickshank, Saxena, Strickland, Waithman, Holt and Bosco.)

Published

2023

5. Lipopolysaccharide-induced interferon response networks at birth are predictive of severe viral lower respiratory infections in the first year of life.

Author

Read JF, Serralha M, Mok D, Holt BJ, Cruickshank M, Karpievitch YV, Broadhurst DI, Sly PD, Strickland DH, Reinke SN, Holt PG, and Bosco A

Subjects

Antiviral Agents, Child, Preschool, Humans, Infant, Infant, Newborn, Interferons, Lipopolysaccharides pharmacology, Asthma, Nucleic Acids, Respiratory Tract Infections

Abstract

Appropriate innate immune function is essential to limit pathogenesis and severity of severe lower respiratory infections (sLRI) during infancy, a leading cause of hospitalization and risk factor for subsequent asthma in this age group. Employing a systems biology approach to analysis of multi-omic profiles generated from a high-risk cohort (n=50), we found that the intensity of activation of an LPS-induced interferon gene network at birth was predictive of sLRI risk in infancy (AUC=0.724). Connectivity patterns within this network were stronger among susceptible individuals, and a systems biology approach identified IRF1 as a putative master regulator of this response. These findings were specific to the LPS-induced interferon response and were not observed following activation of viral nucleic acid sensing pathways. Comparison of responses at birth versus age 5 demonstrated that LPS-induced interferon responses but not responses triggered by viral nucleic acid sensing pathways may be subject to strong developmental regulation. These data suggest that the risk of sLRI in early life is in part already determined at birth, and additionally that the developmental status of LPS-induced interferon responses may be a key determinant of susceptibility. Our findings provide a rationale for the identification of at-risk infants for early intervention aimed at sLRI prevention and identifies targets which may be relevant for drug development., Competing Interests: JFR and AB are co-inventors on a provisional patent filed subsequent to this work. JFR and AB are co-founders, equity holders, and directors of a startup company Respiradigm Pty Ltd related to this provisional patent. The remaining authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2022 Read, Serralha, Mok, Holt, Cruickshank, Karpievitch, Broadhurst, Sly, Strickland, Reinke, Holt and Bosco.)

Published

2022

6. Decoding Susceptibility to Respiratory Viral Infections and Asthma Inception in Children.

Author

Read JF and Bosco A

Subjects

Asthma pathology, Asthma virology, Child, Humans, Respiratory Syncytial Virus, Human isolation & purification, Asthma epidemiology, Respiratory Syncytial Virus Infections complications, Respiratory Tract Infections complications

Abstract

Human Respiratory Syncytial Virus and Human Rhinovirus are the most frequent cause of respiratory tract infections in infants and children and are major triggers of acute viral bronchiolitis, wheezing and asthma exacerbations. Here, we will discuss the application of the powerful tools of systems biology to decode the molecular mechanisms that determine risk for infection and subsequent asthma. An important conceptual advance is the understanding that the innate immune system is governed by a Bow-tie architecture, where diverse input signals converge onto a few core pathways (e.g., IRF7), which in turn generate diverse outputs that orchestrate effector and regulatory functions. Molecular profiling studies in children with severe exacerbations of asthma/wheeze have identified two major immunological phenotypes. The IRF7hi phenotype is characterised by robust upregulation of antiviral response networks, and the IRF7lo phenotype is characterised by upregulation of markers of TGFβ signalling and type 2 inflammation. Similar phenotypes have been identified in infants and children with severe viral bronchiolitis. Notably, genome-wide association studies supported by experimental validation have identified key pathways that increase susceptibility to HRV infection (ORMDL3 and CHDR3) and modulate TGFβ signalling (GSDMB, TGFBR1, and SMAD3). Moreover, functional deficiencies in the activation of type I and III interferon responses are already evident at birth in children at risk of developing febrile lower respiratory tract infections and persistent asthma/wheeze, suggesting that the trajectory to asthma begins at birth or in utero. Finally, exposure to microbes and their products reprograms innate immunity and provides protection from the development of allergies and asthma in children, and therefore microbial products are logical candidates for the primary prevention of asthma.

Published

2020

7. In infants with sufficient vitamin D status at birth, vitamin D supplementation does not impact immune development.

Author

Leffler J, Gamez C, Jones AP, Rueter K, Read JF, Siafarikas A, Lim EM, Noakes PS, Prescott SL, Stumbles PA, Palmer DJ, and Strickland DH

Subjects

Cholecalciferol, Dietary Supplements, Double-Blind Method, Female, Humans, Infant, Infant, Newborn, Vitamin D, Vitamins, Eczema, Vitamin D Deficiency drug therapy

Abstract

Background: Low vitamin D levels have been associated with allergic diseases. Vitamin D has potent immunomodulatory properties, but the mechanisms remain unclear. We have investigated the effect of oral vitamin D supplementation on circulating immune cell phenotypes in infants., Method: A double-blinded randomised controlled trial was conducted to investigate the effect of oral vitamin D supplementation (400 IU/d) on eczema and immune development. A subset of 78 infants was included in this analysis. Phenotypic analysis of immune cell subsets was performed using flow cytometry., Results: Vitamin D supplementation resulted in median 25(OH)D levels of 80.5 vs 59.5 nmol/L in the placebo group at 3 months of age (P = .002) and 87.5 vs 77 nmol/L at 6 months of age (P = .08). We observed significant changes in immune cell composition from birth (cord blood) to 6 months of age. Vitamin D supplementation did not impact these changes, nor did immune cell composition correlate with plasma 25(OH)D levels. Through exploratory analysis, we identified possible associations with eczema development and increased abundance of naïve CD4 - T cells at birth, as well as associations with basophils, iNKT and central memory CD4 + T cells, and altered expression patterns of IgE receptor (FcεR1) on monocytes and dendritic cells with eczema at 6 months., Conclusions: Vitamin D supplementation in infants who were vitamin D sufficient at birth did not affect developmental changes in immune cells during the first 6 months of life. However, immune cell profiles at birth and at 6 months of age were associated with early life eczema., (© 2020 EAACI and John Wiley and Sons A/S. Published by John Wiley and Sons Ltd.)

Published

2020

8. Immunoinflammatory responses to febrile lower respiratory infections in infants display uniquely complex/intense transcriptomic profiles.

Author

Jones AC, Anderson D, Galbraith S, Fantino E, Cardenas DG, Read JF, Serralha M, Holt BJ, Strickland DH, Sly PD, Bosco A, and Holt PG

Subjects

Fever, Humans, Infant, Interferons, Transcriptome, Asthma, Respiratory Tract Infections

Published

2019

9. Progressive increase of FcεRI expression across several PBMC subsets is associated with atopy and atopic asthma within school-aged children.

Author

Leffler J, Read JF, Jones AC, Mok D, Hollams EM, Laing IA, Le Souef PN, Sly PD, Kusel MMH, de Klerk NH, Bosco A, Holt PG, and Strickland DH

Subjects

Adolescent, Asthma genetics, Australia, Child, Child, Preschool, Cohort Studies, Female, Flow Cytometry, Humans, Hypersensitivity, Immediate genetics, Immunoglobulin E blood, Immunomodulation, Male, Receptors, IgE genetics, Up-Regulation, Asthma metabolism, Basophils physiology, Dendritic Cells physiology, Hypersensitivity, Immediate metabolism, Leukocytes, Mononuclear physiology, Receptors, IgE metabolism

Abstract

Background: Antigen-specific IgE binds the Fcε receptor I (FcεRI) expressed on several types of immune cells, including dendritic cells (DCs). Activation of FcεRI on DCs in atopics has been shown to modulate immune responses that potentially contribute to asthma development. However, the extent to which DC subsets differ in FcεRI expression between atopic children with or without asthma is currently not clear. This study aimed to analyse the expression of FcεRI on peripheral blood mononuclear cells (PBMCs) from atopic children with and without asthma, and non-atopic/non-asthmatic age-matched healthy controls., Methods: We performed multiparameter flow cytometry on PBMC from 391 children across three community cohorts and one clinical cohort based in Western Australia., Results: We confirmed expression of FcεRI on basophils, monocytes, plasmacytoid and conventional DCs, with higher proportions of all cell populations expressing FcεRI in atopic compared to non-atopic children. Further, we observed that levels of FcεRI expression were elevated across plasmacytoid and conventional DC as well as basophils in atopic asthmatic compared to atopic non-asthmatic children also after adjusting for serum IgE levels., Conclusion: Our data suggest that the expression pattern of FcεRI on DC and basophils differentiates asthmatic from non-asthmatic atopic children. Given the significant immune modulatory effects observed as a consequence of FcεRI expression, this altered expression pattern is likely to contribute to asthma pathology in children., (© 2019 EAACI and John Wiley and Sons A/S. Published by John Wiley and Sons Ltd.)

Published

2019

10. Personalized Transcriptomics Reveals Heterogeneous Immunophenotypes in Children with Viral Bronchiolitis.

Author

Jones AC, Anderson D, Galbraith S, Fantino E, Gutierrez Cardenas D, Read JF, Serralha M, Holt BJ, Strickland DH, Sly PD, Bosco A, and Holt PG

Subjects

Child, Preschool, Female, Humans, Infant, Infant, Newborn, Male, Sequence Analysis, RNA, Bronchiolitis, Viral genetics, Bronchiolitis, Viral immunology, Immunity, Innate, Leukocytes, Mononuclear immunology, Nasal Mucosa immunology, Phenotype, Transcriptome

Abstract

Rationale: A subset of infants are hypersusceptible to severe/acute viral bronchiolitis (AVB), for reasons incompletely understood. Objectives: To characterize the cellular/molecular mechanisms underlying infant AVB in circulating cells/local airway tissues. Methods: Peripheral blood mononuclear cells and nasal scrapings were obtained from infants (<18 mo) and children (≥18 mo to 5 yr) during AVB and after convalescence. Immune response patterns were profiled by multiplex analysis of plasma cytokines, flow cytometry, and transcriptomics (RNA-Seq). Molecular profiling of group-level data used a combination of upstream regulator and coexpression network analysis, followed by individual subject-level data analysis using personalized N -of-1-pathways methodology. Measurements and Main Results: Group-level analyses demonstrated that infant peripheral blood mononuclear cell responses were dominated by monocyte-associated hyperupregulated type 1 IFN signaling/proinflammatory pathways (drivers: TNF [tumor necrosis factor], IL-6, TREM1 [triggering receptor expressed on myeloid cells 1], and IL-1B), versus a combination of inflammation (PTGER2 [prostaglandin E receptor 2] and IL-6) plus growth/repair/remodeling pathways (ERBB2 [erbb-b2 receptor tyrosine kinase 2], TGFB1 [transforming growth factor-β1], AREG [amphiregulin], and HGF [hepatocyte growth factor]) coupled with T-helper cell type 2 and natural killer cell signaling in children. Age-related differences were not attributable to differential steroid usage or variations in underlying viral pathogens. Nasal mucosal responses were comparable qualitatively in infants/children, dominated by IFN types 1-3, but the magnitude of upregulation was higher in infants (range, 6- to 48-fold) than children (5- to 17-fold). N -of-1-pathways analysis confirmed differential upregulation of innate immunity in infants and natural killer cell networks in children, and additionally demonstrated covert AVB response subphenotypes that were independent of chronologic age. Conclusions: Dysregulated expression of IFN-dependent pathways after respiratory viral infections is a defining immunophenotypic feature of AVB-susceptible infants and a subset of children. Susceptible subjects seem to represent a discrete subgroup who cluster based on (slow) kinetics of postnatal maturation of innate immune competence.

Published

2019