Your search keyword '"Joza S"' showing total 17 results

1. Amelioration of hyperoxia-induced lung injury using a sphingolipid-based intervention

Author

Tibboel, J. (Jeroen), Joza, S. (Stephen), Reiss, I.K.M. (Irwin), Jongste, J.C. (Johan) de, Post, M.R. (Martin), Tibboel, J. (Jeroen), Joza, S. (Stephen), Reiss, I.K.M. (Irwin), Jongste, J.C. (Johan) de, and Post, M.R. (Martin)

Abstract

The aim of this study was to characterise lung function and bronchoalveolar lavage sphingolipid profile in newborn mice during hyperoxia exposure and recovery in room air, and to examine the effect of D-sphingosine supplementation during recovery. Newborn mice were exposed to 80% oxygen for 4 weeks and allowed to recover in room air for another 4 weeks. Lung function measurements and morphometrical analysis of lung tissue were performed and bronchoalveolar lavage fluid was collected during hyperoxia and recovery with and without D-sphingosine supplementation. Hyperoxia exposure altered lung function, which partially recovered in room air. Lungs had fewer and enlarged alveoli which persisted during recovery. Multiple sphingolipids were significantly increased after hyperoxia. Ceramides were increased after 2 weeks of recovery, but normalised to control values after 4 weeks. The addition of D-sphingosine during the first 5 days of recovery accelerated the normalisation of ceramide levels at 2 weeks and partially reversed the hyperoxia-induced increase in alveolar size and arrest in alveolarisation at 4 weeks. Exposure of newborn mice to hyperoxia caused restrictive and obstructive lung function changes that partially recovered in room air, while alveolar morphology remained abnormal. Hyperoxia increased ceramide levels, with normalisation after recovery. D-sphingosine addition during recovery reduced ceramide levels and ameliorated hyperoxia-induced alveolar arrest. Copyright

Published

2013

2. A golden opportunity: benzofuranone modifications of aurones and their influence on optical properties, toxicity, and potential as dyes

Author

Joza Schmitt and Scott T. Handy

Subjects

aurone, dyeing, dyes, substitution effect, toxicity, UV–vis spectrum, Science, Organic chemistry, QD241-441

Abstract

Aurones are a small subclass of the flavonoid family known primarily for their unusual structure and the golden yellow color they impart to the flowers of snapdragons and cosmos. Most studies of aurones focus on their range of biological activities, but relatively little has been reported with respect to their optical properties, unlike their aza and thio analogs. What little is known has focused entirely on the influence of the benzylidene portion. In this study, the influence of substitution in the benzofuranone ring on the UV–vis spectrum is explored, as well as an initial screening of their toxicity and a qualitative preliminary study of their potential to act as fabric dyes.

Published

2019

3. Determination of liquefying power of malt diastase

Author

Joza, S., primary and Gore, H. G., additional

Published

1930

4. Prodromal dementia with Lewy bodies in REM sleep behavior disorder: A multicenter study.

Author

Joza S, Hu MT, Jung KY, Kunz D, Arnaldi D, Lee JY, Ferini-Strambi L, Antelmi E, Sixel-Döring F, De Cock VC, Montplaisir JY, Welch J, Kim HJ, Bes F, Mattioli P, Woo KA, Marelli S, Plazzi G, Mollenhauer B, Pelletier A, Razzaque J, Sunwoo JS, Girtler N, Trenkwalder C, Gagnon JF, and Postuma RB

Subjects

Humans, Lewy Body Disease diagnosis, REM Sleep Behavior Disorder diagnosis, Parkinson Disease, Parkinsonian Disorders, Cognitive Dysfunction diagnosis

Abstract

Introduction: Isolated/idiopathic rapid eye movement sleep behavior disorder (iRBD) is a powerful early predictor of dementia with Lewy bodies (DLB) and Parkinson's disease (PD). This provides an opportunity to directly observe the evolution of prodromal DLB and to identify which cognitive variables are the strongest predictors of evolving dementia., Methods: IRBD participants (n = 754) from 10 centers of the International RBD Study Group underwent annual neuropsychological assessment. Competing risk regression analysis determined optimal predictors of dementia. Linear mixed-effect models determined the annual progression of neuropsychological testing., Results: Reduced attention and executive function, particularly performance on the Trail Making Test Part B, were the strongest identifiers of early DLB. In phenoconverters, the onset of cognitive decline began up to 10 years prior to phenoconversion. Changes in verbal memory best differentiated between DLB and PD subtypes., Discussion: In iRBD, attention and executive dysfunction strongly predict dementia and begin declining several years prior to phenoconversion., Highlights: Cognitive decline in iRBD begins up to 10 years prior to phenoconversion. Attention and executive dysfunction are the strongest predictors of dementia in iRBD. Decline in episodic memory best distinguished dementia-first from parkinsonism-first phenoconversion., (© 2023 The Authors. Alzheimer's & Dementia published by Wiley Periodicals LLC on behalf of Alzheimer's Association.)

Published

2024

5. Is REM Sleep Behavior Disorder Changing? Secular Changes Versus Referral Patterns.

Author

Joza S, Iranzo A, Stefani A, Pelletier A, Serradell M, Muñoz-Lopetegi A, Ibrahim A, Holzknecht E, Montplaisir JY, Mayà G, Santamaria J, Gaig C, Bergmann M, Brandauer E, Högl B, Gagnon JF, and Postuma RB

Abstract

Background: Since 2014, there has been increasing public outreach effort regarding isolated/idiopathic rapid eye movement (REM) sleep behavior disorder (iRBD) in Montreal., Objective: To assess if, over time, milder iRBD cases are presenting earlier., Methods: Disease-free survival was compared in two iRBD recruitment epochs: 2004 to 2013 ("earlier") versus 2014to 2022 ("later " ) and by referral type ("self-referral" vs. "conventional-referral") in three large centers., Results: In Montreal, among 209 subjects followed prospectively, shorter time to phenoconversion was observed in the earlier epoch (5-year phenoconversion = 42% earlier vs. 23% later); diagnosis before 2014 had a 1.8-fold phenoconversion hazard. However, no difference was observed in 248 subjects from Barcelona and 166 from Innsbruck. Analysis of Montreal data found that increased survival in the later epoch was driven by an increasing number of self-referrals, who phenoconverted at 1/3 the rate of physician-referred subjects., Conclusions: Increased patient awareness of iRBD results in earlier presentation to clinical attention, with a longer time to phenoconversion., (© 2023 The Authors. Movement Disorders Clinical Practice published by Wiley Periodicals LLC on behalf of International Parkinson and Movement Disorder Society.)

Published

2023

6. Progression of clinical markers in prodromal Parkinson's disease and dementia with Lewy bodies: a multicentre study.

Author

Joza S, Hu MT, Jung KY, Kunz D, Stefani A, Dušek P, Terzaghi M, Arnaldi D, Videnovic A, Schiess MC, Hermann W, Lee JY, Ferini-Strambi L, Lewis SJG, Leclair-Visonneau L, Oertel WH, Antelmi E, Sixel-Döring F, Cochen De Cock V, Liguori C, Liu J, Provini F, Puligheddu M, Nicoletti A, Bassetti CLA, Bušková J, Dauvilliers Y, Ferri R, Montplaisir JY, Lawton M, Kim HJ, Bes F, Högl B, Šonka K, Fiamingo G, Mattioli P, Lavadia ML, Suescun J, Woo KA, Marelli S, Martens KE, Janzen A, Plazzi G, Mollenhauer B, Fernandes M, Li Y, Cortelli P, Figorilli M, Cicero CE, Schaefer C, Guiraud L, Lanza G, Gagnon JF, Sunwoo JS, Ibrahim A, Girtler N, Trenkwalder C, Baldelli L, Pelletier A, and Postuma RB

Subjects

Humans, Prospective Studies, Disease Progression, Biomarkers, Prodromal Symptoms, Parkinson Disease complications, Parkinson Disease diagnosis, Lewy Body Disease diagnosis, REM Sleep Behavior Disorder diagnosis

Abstract

The neurodegenerative synucleinopathies, including Parkinson's disease and dementia with Lewy bodies, are characterized by a typically lengthy prodromal period of progressive subclinical motor and non-motor manifestations. Among these, idiopathic REM sleep behaviour disorder is a powerful early predictor of eventual phenoconversion, and therefore represents a critical opportunity to intervene with neuroprotective therapy. To inform the design of randomized trials, it is essential to study the natural progression of clinical markers during the prodromal stages of disease in order to establish optimal clinical end points. In this study, we combined prospective follow-up data from 28 centres of the International REM Sleep Behavior Disorder Study Group representing 12 countries. Polysomnogram-confirmed REM sleep behaviour disorder subjects were assessed for prodromal Parkinson's disease using the Movement Disorder Society criteria and underwent periodic structured sleep, motor, cognitive, autonomic and olfactory testing. We used linear mixed-effect modelling to estimate annual rates of clinical marker progression stratified by disease subtype, including prodromal Parkinson's disease and prodromal dementia with Lewy bodies. In addition, we calculated sample size requirements to demonstrate slowing of progression under different anticipated treatment effects. Overall, 1160 subjects were followed over an average of 3.3 ± 2.2 years. Among clinical variables assessed continuously, motor variables tended to progress faster and required the lowest sample sizes, ranging from 151 to 560 per group (at 50% drug efficacy and 2-year follow-up). By contrast, cognitive, olfactory and autonomic variables showed modest progression with higher variability, resulting in high sample sizes. The most efficient design was a time-to-event analysis using combined milestones of motor and cognitive decline, estimating 117 per group at 50% drug efficacy and 2-year trial duration. Finally, while phenoconverters showed overall greater progression than non-converters in motor, olfactory, cognitive and certain autonomic markers, the only robust difference in progression between Parkinson's disease and dementia with Lewy bodies phenoconverters was in cognitive testing. This large multicentre study demonstrates the evolution of motor and non-motor manifestations in prodromal synucleinopathy. These findings provide optimized clinical end points and sample size estimates to inform future neuroprotective trials., (© The Author(s) 2023. Published by Oxford University Press on behalf of the Guarantors of Brain. All rights reserved. For permissions, please e-mail: journals.permissions@oup.com.)

Published

2023

7. Pedunculopontine Nucleus Dysconnectivity Correlates With Gait Impairment in Parkinson's Disease: An Exploratory Study.

Author

Joza S, Camicioli R, Martin WRW, Wieler M, Gee M, and Ba F

Abstract

Background: Gait impairment is a debilitating and progressive feature of Parkinson's disease (PD). Increasing evidence suggests that gait control is partly mediated by cholinergic signaling from the pedunculopontine nucleus (PPN)., Objective: We investigated whether PPN structural connectivity correlated with quantitative gait measures in PD., Methods: Twenty PD patients and 15 controls underwent diffusion tensor imaging to quantify structural connectivity of the PPN. Whole brain analysis using tract-based spatial statistics and probabilistic tractography were performed using the PPN as a seed region of interest for cortical and subcortical target structures. Gait metrics were recorded in subjects' medication ON and OFF states, and were used to determine if specific features of gait dysfunction in PD were related to PPN structural connectivity., Results: Tract-based spatial statistics revealed reduced structural connectivity involving the corpus callosum and right superior corona radiata, but did not correlate with gait measures. Abnormalities in PPN structural connectivity in PD were lateralized to the right hemisphere, with pathways involving the right caudate nucleus, amygdala, pre-supplementary motor area, and primary somatosensory cortex. Altered connectivity of the right PPN-caudate nucleus was associated with worsened cadence, stride time, and velocity while in the ON state; altered connectivity of the right PPN-amygdala was associated with reduced stride length in the OFF state., Conclusion: Our exploratory analysis detects a potential correlation between gait dysfunction in PD and a characteristic pattern of connectivity deficits in the PPN network involving the right caudate nucleus and amygdala, which may be investigated in future larger studies., Competing Interests: The 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 Joza, Camicioli, Martin, Wieler, Gee and Ba.)

Published

2022

8. Teaching an Old Drug a New Trick for Dystonia.

Author

Joza S and Postuma RB

Subjects

Humans, Dystonic Disorders drug therapy, Torticollis

Published

2022

9. Spinal dural arteriovenous fistula presenting as progressive thoracic myelopathy.

Author

Nathoo N, Balcom EF, Joza S, Yeo T, O'Kelly C, and Shetty A

Subjects

Dura Mater, Humans, Magnetic Resonance Imaging, Spinal Cord diagnostic imaging, Central Nervous System Vascular Malformations complications, Central Nervous System Vascular Malformations diagnostic imaging, Spinal Cord Diseases diagnostic imaging, Spinal Cord Diseases etiology

Abstract

Competing Interests: Competing interests: None declared.

Published

2021

10. Subcortical microstructural diffusion changes correlate with gait impairment in Parkinson's disease.

Author

Surkont J, Joza S, Camicioli R, Martin WRW, Wieler M, and Ba F

Subjects

Aged, Caudate Nucleus diagnostic imaging, Diffusion Tensor Imaging, Female, Humans, Male, Mesencephalon diagnostic imaging, Middle Aged, Pilot Projects, Thalamus diagnostic imaging, Caudate Nucleus pathology, Gait Disorders, Neurologic diagnostic imaging, Gait Disorders, Neurologic etiology, Gait Disorders, Neurologic pathology, Gait Disorders, Neurologic physiopathology, Mesencephalon pathology, Parkinson Disease complications, Parkinson Disease diagnostic imaging, Parkinson Disease pathology, Parkinson Disease physiopathology, Thalamus pathology

Abstract

Background: Gait impairments are common in Parkinson's Disease (PD) and are likely caused by degeneration in multiple brain circuits, including the basal ganglia, thalamus and mesencephalic locomotion centers (MLC). Diffusion tensor imaging (DTI) assesses fractional anisotropy (FA) and mean diffusivity (MD) that reflect the integrity of neuronal microstructure. We hypothesized that DTI changes in motor circuits correlate with gait changes in PD., Objective: We aimed to identify microstructural changes of brain locomotion control centers in PD via DTI and their correlations with clinical and quantitative measures of gait., Methods: Twenty-one PD patients reporting gait impairment and 15 controls were recruited. Quantitative gait and clinical tests were recorded in PD subjects' medication ON and OFF states. Region of Interest (ROI) analysis of the thalamus, basal ganglia and MLC was performed using ExploreDTI. Correlations between FA/MD with clinical gait parameters were examined., Results: Microstructural changes were seen in the thalamus, caudate and MLC in the PD compared to the control group. Thalamic microstructural changes significantly correlated with gait parameters in the pace domain including the Timed Up and Go in the ON state. Caudate changes correlated with cadence and stride time in the OFF state., Conclusions: Our pilot study suggests that PD is associated with a characteristic regional pattern of microstructural degradation in the thalamus, caudate and MLC. The DTI changes may represent subcortical locomotion network failure. Overall, DTI ROI analyses might provide a useful tool for assessing PD for functional status and specific motor domains, such as gait, and potentially could serve as an imaging marker., (Copyright © 2021 Elsevier Ltd. All rights reserved.)

Published

2021

11. Pupillometry measures of autonomic nervous system regulation with advancing age in a healthy pediatric cohort.

Author

Winston M, Zhou A, Rand CM, Dunne EC, Warner JJ, Volpe LJ, Pigneri BA, Simon D, Bielawiec T, Gordon SC, Vitez SF, Charnay A, Joza S, Kelly K, Panicker C, Rizvydeen S, Niewijk G, Coleman C, Scher BJ, Reed DW, Hockney SM, Buniao G, Stewart T, Trojanowski L, Brogadir C, Price M, Kenny AS, Bradley A, Volpe NJ, and Weese-Mayer DE

Subjects

Adolescent, Age Factors, Child, Child, Preschool, Cohort Studies, Cross-Sectional Studies, Female, Humans, Male, Photic Stimulation methods, Young Adult, Autonomic Nervous System physiology, Health Status, Pupil physiology, Reflex, Pupillary physiology

Abstract

Purpose: To determine if variables of the pupillary light response mature with age and sex in a healthy pediatric cohort and the utility of pupillometry in assessment among pediatric participants., Methods: After 1 min in a dark room to establish baseline, pupillometry was performed on 323 healthy, pediatric participants (646 eyes; 2-21 years; 175 females). Variables included initial pupil diameter, pupil diameter after light stimulus, percent pupillary constriction, latency to onset of constriction, average constriction velocity, maximum constriction velocity, average dilation velocity, and time from light stimulus to 75% of the initial pupil diameter. Data analyses employed ANOVAs and non-linear regressions., Results: Analyses of age group differences revealed that participants 12-21 years old had a larger initial pupil diameter and pupil diameter after light stimulus, with males aged 12-18 years demonstrating a larger pupil diameter than all younger participants (ps < 0.05). Participants 12-18 years old had a slower maximum constriction velocity than participants 6-11 years old, with no sex differences (ps < 0.05). Furthermore, males aged 12-18 years old had a smaller percent constriction than males 6-11 years old (ps < 0.05). Regressions revealed that percent constriction and dilation velocity seemed to mature linearly, initial pupil diameter and ending pupil diameter matured quadratically, and the constriction velocity terms matured cubically., Conclusions: Results revealed maturation of the pupillary light response by age and sex in healthy pediatric participants. Given the value of the pupillary light response as a biomarker, the results provide normative benchmarks for comparison in health and disease, including opiate-exposed and concussion patients.

Published

2020

12. Falls in Synucleinopathies.

Author

Joza S, Camicioli R, and Ba F

Abstract

Parkinson's disease (PD) and other synucleinopathies, namely dementia with Lewy bodies (DLB) and multiple system atrophy (MSA), are common degenerative neurological disorders that share synuclein pathology. Although certain cardinal features of parkinsonism, including bradykinesia and rigidity, respond well to levodopa, axial features, such as gait and balance impairment, are less reliably responsive to dopaminergic therapy and surgical interventions. Consequently, falls are common in PD and other synucleinopathies and are a major contributor toward injury and loss of independence. This underscores the need for appropriate fall risk assessment and implementation of preventative measures in all patients with parkinsonism. The aim of this review is therefore to explore modifiable and non-modifiable risk factors for falls in synucleinopathies. We next review and evaluate the evidence for pharmacological, nonpharmacological, and surgical approaches for fall prevention, and emphasize individualized and multifaceted approaches.

Published

2020

13. Fetal, but not postnatal, deletion of semaphorin-neuropilin-1 signaling affects murine alveolar development.

Author

Joza S, Wang J, Tseu I, Ackerley C, and Post M

Subjects

Animals, Capillaries metabolism, Endothelium, Vascular metabolism, Female, Fetus metabolism, Male, Mice, Neuropilin-1 metabolism, Pregnancy, Semaphorins metabolism, Sequence Deletion genetics, Signal Transduction, Vascular Endothelial Growth Factor Receptor-2 genetics, Vascular Endothelial Growth Factor Receptor-2 metabolism, Fetus embryology, Neuropilin-1 genetics, Pulmonary Alveoli embryology, Pulmonary Alveoli metabolism, Semaphorins genetics

Abstract

The disruption of angiogenic pathways, whether through genetic predisposition or as a consequence of life-saving interventions, may underlie many pulmonary diseases of infancy, including bronchopulmonary dysplasia. Neuropilin-1 (Nrp1) is a transmembrane receptor that plays essential roles in normal and pathological vascular development and binds two distinct ligand families: vascular endothelial growth factor (Vegf) and class 3 semaphorins (Sema3). Although Nrp1 is critical for systemic vascular development, the importance of Nrp1 in pulmonary vascular morphogenesis is uncertain. We hypothesized that Sema3-Nrp1 and Vegf-Nrp1 interactions are important pathways in the orchestration of pulmonary vascular development during alveolarization. Complete ablation of Nrp1 signaling would therefore lead to interruption of normal angiogenic and vascular maturation processes that are relevant to the pathogenesis of bronchopulmonary dysplasia. We have previously shown that congenital loss of Sema3-Nrp1 signaling in transgenic Nrp1(Sema-) mice resulted in disrupted alveolar-capillary interface formation and high neonatal mortality. Here, pathohistological examination of Nrp1(Sema-) survivors in the alveolar period revealed moderate to severe respiratory distress, alveolar hemorrhaging, abnormally dilated capillaries, and disintegrating alveolar septa, demonstrating continued instability of the alveolar-capillary interface. Moreover, consistent with a reduced capillary density and consequent increases in vascular resistance, hypertensive remodeling was observed. In contrast, conditional Nrp1 deletion beginning at postnatal day 5 had only a transient effect upon alveolar and vascular development or pneumocyte differentiation despite an increase in mortality. Our results demonstrate that although Sema3-Nrp1 signaling is critical during fetal pulmonary development, Nrp1 signaling does not appear to be essential for alveolar development or vascular function in the postnatal period.

Published

2013

14. Amelioration of hyperoxia-induced lung injury using a sphingolipid-based intervention.

Author

Tibboel J, Joza S, Reiss I, de Jongste JC, and Post M

Subjects

Animals, Animals, Newborn, Bronchoalveolar Lavage Fluid chemistry, Bronchopulmonary Dysplasia etiology, Chromatography, Liquid, Disease Models, Animal, Lung drug effects, Lung physiopathology, Lung Injury prevention & control, Mass Spectrometry, Mice, Mice, Inbred C57BL, Oxygen Inhalation Therapy adverse effects, Sphingosine analogs & derivatives, Sphingosine metabolism, Sphingosine pharmacology, Vital Capacity, Ceramides metabolism, Hyperoxia metabolism, Lung metabolism, Lung Injury metabolism, Sphingolipids metabolism

Abstract

The aim of this study was to characterise lung function and bronchoalveolar lavage sphingolipid profile in newborn mice during hyperoxia exposure and recovery in room air, and to examine the effect of d-sphingosine supplementation during recovery. Newborn mice were exposed to 80% oxygen for 4 weeks and allowed to recover in room air for another 4 weeks. Lung function measurements and morphometrical analysis of lung tissue were performed and bronchoalveolar lavage fluid was collected during hyperoxia and recovery with and without d-sphingosine supplementation. Hyperoxia exposure altered lung function, which partially recovered in room air. Lungs had fewer and enlarged alveoli which persisted during recovery. Multiple sphingolipids were significantly increased after hyperoxia. Ceramides were increased after 2 weeks of recovery, but normalised to control values after 4 weeks. The addition of d-sphingosine during the first 5 days of recovery accelerated the normalisation of ceramide levels at 2 weeks and partially reversed the hyperoxia-induced increase in alveolar size and arrest in alveolarisation at 4 weeks. Exposure of newborn mice to hyperoxia caused restrictive and obstructive lung function changes that partially recovered in room air, while alveolar morphology remained abnormal. Hyperoxia increased ceramide levels, with normalisation after recovery. d-sphingosine addition during recovery reduced ceramide levels and ameliorated hyperoxia-induced alveolar arrest.

Published

2013

15. Endothelin-2 deficiency causes growth retardation, hypothermia, and emphysema in mice.

Author

Chang I, Bramall AN, Baynash AG, Rattner A, Rakheja D, Post M, Joza S, McKerlie C, Stewart DJ, McInnes RR, and Yanagisawa M

Subjects

Animals, Blood Glucose, Body Temperature Regulation genetics, Dietary Fats metabolism, Endothelin-2 genetics, Energy Metabolism genetics, Gene Expression, Genes, Lethal, Intestinal Absorption genetics, Intestine, Small metabolism, Intestine, Small physiopathology, Lung metabolism, Lung pathology, Lung physiopathology, Mice, Mice, Knockout, Organ Specificity, RNA, Messenger genetics, RNA, Messenger metabolism, Endothelin-2 deficiency, Growth Disorders genetics, Hypothermia genetics, Pulmonary Emphysema genetics

Abstract

To explore the physiological functions of endothelin-2 (ET-2), we generated gene-targeted mouse models. Global Et2 knockout mice exhibited severe growth retardation and juvenile lethality. Despite normal milk intake, they suffered from internal starvation characterized by hypoglycemia, ketonemia, and increased levels of starvation-induced genes. Although ET-2 is abundantly expressed in the gastrointestinal tract, the intestine was morphologically and functionally normal. Moreover, intestinal epithelium-specific Et2 knockout mice showed no abnormalities in growth and survival. Global Et2 knockout mice were also profoundly hypothermic. Housing Et2 knockout mice in a warm environment significantly extended their median lifespan. However, neuron-specific Et2 knockout mice displayed a normal core body temperature. Low levels of Et2 mRNA were also detected in the lung, with transient increases soon after birth. The lungs of Et2 knockout mice showed emphysematous structural changes with an increase in total lung capacity, resulting in chronic hypoxemia, hypercapnia, and increased erythropoietin synthesis. Finally, systemically inducible ET-2 deficiency in neonatal and adult mice fully reproduced the phenotype previously observed in global Et2 knockout mice. Together, these findings reveal that ET-2 is critical for the growth and survival of postnatal mice and plays important roles in energy homeostasis, thermoregulation, and the maintenance of lung morphology and function.

Published

2013

16. Loss of semaphorin-neuropilin-1 signaling causes dysmorphic vascularization reminiscent of alveolar capillary dysplasia.

Author

Joza S, Wang J, Fox E, Hillman V, Ackerley C, and Post M

Subjects

Alveolar Epithelial Cells metabolism, Alveolar Epithelial Cells pathology, Alveolar Epithelial Cells ultrastructure, Animals, Animals, Newborn, Bronchioles metabolism, Bronchioles pathology, Bronchioles physiopathology, Bronchioles ultrastructure, Cell Movement, Endothelial Cells metabolism, Endothelial Cells pathology, Endothelial Cells ultrastructure, Fetus metabolism, Gene Expression Regulation, Ligands, Lung embryology, Lung metabolism, Mice, Microvessels pathology, Neovascularization, Pathologic genetics, Neuropilin-1 genetics, Persistent Fetal Circulation Syndrome genetics, Persistent Fetal Circulation Syndrome physiopathology, Pulmonary Alveoli abnormalities, Pulmonary Alveoli pathology, Pulmonary Alveoli physiopathology, Pulmonary Surfactants metabolism, Rats, Vascular Patency, Lung blood supply, Lung pathology, Neovascularization, Pathologic pathology, Neuropilin-1 metabolism, Persistent Fetal Circulation Syndrome pathology, Semaphorins metabolism, Signal Transduction genetics

Abstract

Respiratory diseases of the newborn can arise from the disruption of essential angiogenic pathways. Neuropilin-1 (NRP1), which is a critical receptor implicated in systemic vascular growth and remodeling, binds two distinct ligand families: vascular endothelial growth factor (VEGF) and class 3 semaphorins (SEMA3). Although the function of VEGF-NRP1 interactions in vascular development is well described, the importance of SEMA3-NRP1 signaling in systemic or pulmonary vascular morphogenesis is debated. We sought to characterize the effect of deficient SEMA3-NRP1 signaling on fetal pulmonary vascular development in a mouse model. Temporospatial expression of Nrp1 and Sema3 mRNA and protein during murine fetal lung development was investigated, and the development of the pulmonary vasculature in transgenic mice deficient in Sema3-Nrp1 signaling was examined by histology, immunostaining, and electron microscopy. Loss of Sema3-Nrp1 signaling resulted in acute respiratory distress and high neonatal mortality. Pathohistological examination of mutants revealed immature and atelectatic regions in the lung, severely reduced capillary density, thickened alveolar septa containing centrally located dilated capillaries, hypertensive changes in arteriolar walls, anomalous and misaligned pulmonary veins, and reduced pulmonary surfactant secretion. Notably, many features are reminiscent of the fatal pulmonary disorder alveolar capillary dysplasia. These findings indicate a critical role for Sema3-Nrp1 signaling in fetal pulmonary development, which may have clinical relevance for treatment of various neonatal respiratory disorders, including alveolar capillary dysplasia., (Copyright © 2012 American Society for Investigative Pathology. Published by Elsevier Inc. All rights reserved.)

Published

2012

17. Reduced viability of mice with lung epithelial-specific knockout of glucocorticoid receptor.

Author

Manwani N, Gagnon S, Post M, Joza S, Muglia L, Cornejo S, Kaplan F, and Sweezey NB

Subjects

Animals, Animals, Newborn, Biomarkers metabolism, Doxycycline pharmacology, Epithelial Cells drug effects, Epithelial Cells metabolism, Epithelial Cells pathology, Epithelial Sodium Channels genetics, Epithelial Sodium Channels metabolism, Epithelium drug effects, Epithelium embryology, Gene Expression Regulation, Developmental drug effects, Lung embryology, Mice, Mice, Knockout, Organ Specificity drug effects, Organogenesis drug effects, Pulmonary Alveoli drug effects, Pulmonary Alveoli metabolism, Pulmonary Alveoli pathology, Pulmonary Surfactant-Associated Proteins genetics, Pulmonary Surfactant-Associated Proteins metabolism, RNA, Messenger genetics, RNA, Messenger metabolism, Receptors, Glucocorticoid genetics, Receptors, Glucocorticoid metabolism, Survival Analysis, Transcription Factors metabolism, Epithelium metabolism, Epithelium pathology, Lung metabolism, Lung pathology, Receptors, Glucocorticoid deficiency

Abstract

Glucocorticoid (GC)-responsive epithelial-mesenchymal interactions regulate lung development. The GC receptor (GR) mediates GC signaling. Mice lacking GR in all tissues die at birth of respiratory failure. To determine the specific need for epithelial GR in lung development, we bred triple transgenic mice that carry SPC/rtTA, tet-O-Cre, and floxed, but not wild-type, GR genes. When exposed to doxycycline in utero, triple transgenic (GRepi⁻) mice exhibit a Cre-mediated recombination event that inactivates the floxed GR gene in airway epithelial cells. Immunofluorescence confirmed the elimination of GR in Cre-positive airway epithelial cells of late gestation GRepi⁻ mice. Embryonic Day 18.5 pups had a relatively immature appearance with increased lung cellularity and increased pools of glycogen in the epithelium. Postnatal Day 0.5 pups had decreased viability. We used quantitative RT-PCR to demonstrate that specific elimination of epithelial immunoreactive GR in GRepi⁻ mice is associated with reduced mRNA expression for surfactant proteins (SPs) A, B, C, and D; β- and γ-ENaC; T1α; the 10-kD Clara cell protein (CCSP); and aquaporin 5 (AQP5). Western blots confirmed reduced levels of AQP5 protein. No reduction in the levels of the GR transport protein importin (IPO)-13 was observed. Our findings demonstrate a requirement for lung epithelial cell GR in normal lung development. We speculate that impaired epithelial differentiation, leading to decreased SPs, transepithelial Na, and liquid absorption at birth, may contribute to the reduced survival of newborn mice with suppressed lung epithelial GR.

Published

2010