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1. Persistent autism-relevant behavioral phenotype and social neuropeptide alterations in female mice offspring induced by maternal transfer of PBDE congeners in the commercial mixture DE-71

Author

Kozlova, Elena V, Valdez, Matthew C, Denys, Maximillian E, Bishay, Anthony E, Krum, Julia M, Rabbani, Kayhon M, Carrillo, Valeria, Gonzalez, Gwendolyn M, Lampel, Gregory, Tran, Jasmin D, Vazquez, Brigitte M, Anchondo, Laura M, Uddin, Syed A, Huffman, Nicole M, Monarrez, Eduardo, Olomi, Duraan S, Chinthirla, Bhuvaneswari D, Hartman, Richard E, Kodavanti, Prasada Rao S, Chompre, Gladys, Phillips, Allison L, Stapleton, Heather M, Henkelmann, Bernhard, Schramm, Karl-Werner, and Curras-Collazo, Margarita C

Subjects
Pharmacology and Pharmaceutical Sciences, Biomedical and Clinical Sciences, Basic Behavioral and Social Science, Pediatric, Brain Disorders, Neurosciences, Intellectual and Developmental Disabilities (IDD), Mental Health, Pediatric Research Initiative, Autism, Behavioral and Social Science, Mental health, Animals, Autistic Disorder, Female, Flame Retardants, Halogenated Diphenyl Ethers, Humans, Maternal Exposure, Mice, Mice, Inbred C57BL, Neuropeptides, Phenotype, Endocrine-disrupting chemicals, Developmental exposure, Oxytocin, Flame retardants, Polybrominated diphenyl ethers, Vasopressin, Toxicology, Biochemistry and cell biology, Pharmacology and pharmaceutical sciences
Abstract

Polybrominated diphenyl ethers (PBDEs) are ubiquitous persistent organic pollutants (POPs) that are known neuroendocrine disrupting chemicals with adverse neurodevelopmental effects. PBDEs may act as risk factors for autism spectrum disorders (ASD), characterized by abnormal psychosocial functioning, although direct evidence is currently lacking. Using a translational exposure model, we tested the hypothesis that maternal transfer of a commercial mixture of PBDEs, DE-71, produces ASD-relevant behavioral and neurochemical deficits in female offspring. C57Bl6/N mouse dams (F0) were exposed to DE-71 via oral administration of 0 (VEH/CON), 0.1 (L-DE-71) or 0.4 (H-DE-71) mg/kg bw/d from 3 wk prior to gestation through end of lactation. Mass spectrometry analysis indicated in utero and lactational transfer of PBDEs (in ppb) to F1 female offspring brain tissue at postnatal day (PND) 15 which was reduced by PND 110. Neurobehavioral testing of social novelty preference (SNP) and social recognition memory (SRM) revealed that adult L-DE-71 F1 offspring display deficient short- and long-term SRM, in the absence of reduced sociability, and increased repetitive behavior. These effects were concomitant with reduced olfactory discrimination of social odors. Additionally, L-DE-71 exposure also altered short-term novel object recognition memory but not anxiety or depressive-like behavior. Moreover, F1 L-DE-71 displayed downregulated mRNA transcripts for oxytocin (Oxt) in the bed nucleus of the stria terminalis (BNST) and supraoptic nucleus, and vasopressin (Avp) in the BNST and upregulated Avp1ar in BNST, and Oxtr in the paraventricular nucleus. Our work demonstrates that developmental PBDE exposure produces ASD-relevant neurochemical, olfactory processing and behavioral phenotypes that may result from early neurodevelopmental reprogramming within central social and memory networks.

Published
2022

2. Persistent autism-relevant behavioral phenotype and social neuropeptide alterations in female mice offspring induced by maternal transfer of PBDE congeners in the commercial mixture DE-71.

Author

Kozlova, Elena V, Valdez, Matthew C, Denys, Maximillian E, Bishay, Anthony E, Krum, Julia M, Rabbani, Kayhon M, Carrillo, Valeria, Gonzalez, Gwendolyn M, Lampel, Gregory, Tran, Jasmin D, Vazquez, Brigitte M, Anchondo, Laura M, Uddin, Syed A, Huffman, Nicole M, Monarrez, Eduardo, Olomi, Duraan S, Chinthirla, Bhuvaneswari D, Hartman, Richard E, Kodavanti, Prasada Rao S, Chompre, Gladys, Phillips, Allison L, Stapleton, Heather M, Henkelmann, Bernhard, Schramm, Karl-Werner, and Curras-Collazo, Margarita C

Subjects
Developmental exposure, Endocrine-disrupting chemicals, Flame retardants, Oxytocin, Polybrominated diphenyl ethers, Vasopressin, Behavioral and Social Science, Intellectual and Developmental Disabilities (IDD), Brain Disorders, Neurosciences, Autism, Mental Health, Pediatric Research Initiative, Basic Behavioral and Social Science, Pediatric, Mental health, Toxicology, Pharmacology and Pharmaceutical Sciences
Abstract

Polybrominated diphenyl ethers (PBDEs) are ubiquitous persistent organic pollutants (POPs) that are known neuroendocrine disrupting chemicals with adverse neurodevelopmental effects. PBDEs may act as risk factors for autism spectrum disorders (ASD), characterized by abnormal psychosocial functioning, although direct evidence is currently lacking. Using a translational exposure model, we tested the hypothesis that maternal transfer of a commercial mixture of PBDEs, DE-71, produces ASD-relevant behavioral and neurochemical deficits in female offspring. C57Bl6/N mouse dams (F0) were exposed to DE-71 via oral administration of 0 (VEH/CON), 0.1 (L-DE-71) or 0.4 (H-DE-71) mg/kg bw/d from 3 wk prior to gestation through end of lactation. Mass spectrometry analysis indicated in utero and lactational transfer of PBDEs (in ppb) to F1 female offspring brain tissue at postnatal day (PND) 15 which was reduced by PND 110. Neurobehavioral testing of social novelty preference (SNP) and social recognition memory (SRM) revealed that adult L-DE-71 F1 offspring display deficient short- and long-term SRM, in the absence of reduced sociability, and increased repetitive behavior. These effects were concomitant with reduced olfactory discrimination of social odors. Additionally, L-DE-71 exposure also altered short-term novel object recognition memory but not anxiety or depressive-like behavior. Moreover, F1 L-DE-71 displayed downregulated mRNA transcripts for oxytocin (Oxt) in the bed nucleus of the stria terminalis (BNST) and supraoptic nucleus, and vasopressin (Avp) in the BNST and upregulated Avp1ar in BNST, and Oxtr in the paraventricular nucleus. Our work demonstrates that developmental PBDE exposure produces ASD-relevant neurochemical, olfactory processing and behavioral phenotypes that may result from early neurodevelopmental reprogramming within central social and memory networks.

Published
2021

3. Acute intranasal osteopontin treatment in male rats following TBI increases the number of activated microglia but does not alter lesion characteristics.

Author

Jullienne, Amandine, Hamer, Mary, Haddad, Elizabeth, Morita, Alexander, Gifford, Peter, Hartman, Richard, Pearce, William J, Tang, Jiping, Zhang, John H, and Obenaus, Andre

Subjects
Blood-Brain Barrier, Brain, Microglia, Animals, Rats, Rats, Sprague-Dawley, Brain Edema, Disease Models, Animal, Neuroprotective Agents, Signal Transduction, Male, Osteopontin, Brain Injuries, Traumatic, Heme oxygenase-1, T2 mapping, controlled cortical impact, edema, extracellular matrix protein, microglial activation, Brain Disorders, Traumatic Head and Spine Injury, Traumatic Brain Injury (TBI), Neurosciences, Physical Injury - Accidents and Adverse Effects, Neurological, Psychology, Neurology & Neurosurgery
Abstract

Intranasal recombinant osteopontin (OPN) has been shown to be neuroprotective in different models of acquired brain injury but has never been tested after traumatic brain injury (TBI). We used a model of moderate-to-severe controlled cortical impact in male adult Sprague Dawley rats and tested our hypothesis that OPN treatment would improve neurological outcomes, lesion and brain tissue characteristics, neuroinflammation, and vascular characteristics at 1 day post-injury. Intranasal OPN administered 1 hr after the TBI did not improve neurological score, lesion volumes, blood-brain barrier, or vascular characteristics. When assessing neuroinflammation, we did not observe any effect of OPN on the astrocyte reactivity but discovered an increased number of activated microglia within the ipsilateral hemisphere. Moreover, we found a correlation between edema and heme oxygenase-1 (HO-1) expression which was decreased in OPN-treated animals, suggesting an effect of OPN on the HO-1 response to injury. Thus, OPN may increase or accelerate the microglial response after TBI, and early response of HO-1 in modulating edema formation may limit the secondary consequences of TBI at later time points. Additional experiments and at longer time points are needed to determine if intranasal OPN could potentially be used as a treatment after TBI where it might be beneficial by activating protective signaling pathways.

Published
2020

4. PDGFR-β modulates vascular smooth muscle cell phenotype via IRF-9/SIRT-1/NF-κB pathway in subarachnoid hemorrhage rats

Author

Wan, Weifeng, Ding, Yan, Xie, Zongyi, Li, Qian, Yan, Feng, Budbazar, Enkhjargal, Pearce, William J, Hartman, Richard, Obenaus, Andre, Zhang, John H, Jiang, Yong, and Tang, Jiping

Subjects
Medical Physiology, Biomedical and Clinical Sciences, Neurosciences, Genetics, Stroke, Cardiovascular, Actins, Animals, Disease Models, Animal, Gene Knockdown Techniques, Interferon-Stimulated Gene Factor 3, gamma Subunit, Male, Muscle, Smooth, Vascular, Myosin Heavy Chains, NF-kappa B, Phenotype, RNA, Small Interfering, Rats, Rats, Sprague-Dawley, Receptor, Platelet-Derived Growth Factor beta, Resveratrol, Signal Transduction, Sirtuin 1, Subarachnoid Hemorrhage, Subarachnoid hemorrhage, vascular smooth muscle cell, phenotypic transformation, platelet-derived growth factor receptor-beta, early brain injury, platelet-derived growth factor receptor-β, Cardiorespiratory Medicine and Haematology, Clinical Sciences, Neurology & Neurosurgery, Clinical sciences
Abstract

Platelet-derived growth factor receptor-β (PDGFR-β) has been reported to promote phenotypic transformation of vascular smooth muscle cells (VSMCs). The purpose of this study was to investigate the role of the PDGFR-β/IRF9/SIRT-1/NF-κB pathway in VSMC phenotypic transformation after subarachnoid hemorrhage (SAH). SAH was induced using the endovascular perforation model in Sprague-Dawley rats. PDGFR-β small interfering RNA (siRNA) and IRF9 siRNA were injected intracerebroventricularly 48 h before SAH. SIRT1 activator (resveratrol) and inhibitor (EX527) were administered intraperitoneally 1 h after SAH induction. Twenty-four hours after SAH, the VSMC contractile phenotype marker α-smooth muscle actin (α-SMA) decreased, whereas the VSMC synthetic phenotype marker embryonic smooth muscle myosin heavy chain (Smemb) increased. Both PDGFR-β siRNA and IRF9 siRNA attenuated the induction of nuclear factor-κB (NF-κB) and enhanced the expression of α-SMA. The SIRT1 activator (resveratrol) preserved VSMC contractile phenotype, significantly alleviated neurological dysfunction, and reduced brain edema. However, these beneficial effects of PDGFR-β siRNA, IRF9 siRNA and resveratrol were abolished by the SIRT1 inhibitor (EX527). This study shows that PDGFR-β/IRF9/SIRT-1/NF-κB signaling played a role in the VSMC phenotypic transformation after SAH. Inhibition of this signaling cascade preserved the contractile phenotype of VSMCs, thereby improving neurological outcomes following SAH.

Published
2019

5. Design Thinking in Innovation Processes: A Market Segmentation Tool in Social Networks Research.

Author

Hartman, Richard, Kvasnička, Roman, Čejka, Martin, and Pilař, Ladislav

Subjects
SOCIAL network analysis, MARKET segmentation, SOCIAL segmentation, DESIGN thinking, SOCIAL innovation
Abstract

This paper outlines the purposeful adaptation and utilization of the design thinking process in an innovation case involving market segmentation in social network research. Based on a case study, this paper combines the design thinking process with systems approach methods to foster innovation in social network analyses. The paper details the entire process, from the initial stages to the development of a viable solution defined in the final assignment for programmers. The case study emphasizes the effective use of systems thinking tools and demonstrates the value of combining these two approaches to meet the needs of the innovation process. The paper aims to narrate the entire process and highlight critical points in a real-world case study. The focus was on the challenge of creating a market segmentation tool for researchers and marketers in the realm of social network analysis. [ABSTRACT FROM AUTHOR]

Published
2024
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6. Inhibition of stress fiber formation preserves blood–brain barrier after intracerebral hemorrhage in mice

Author

Manaenko, Anatol, Yang, Peng, Nowrangi, Derek, Budbazar, Enkhjargal, Hartman, Richard E, Obenaus, Andre, Pearce, William J, Zhang, John H, and Tang, Jiping

Subjects
Medical Physiology, Biomedical and Clinical Sciences, Brain Disorders, Stroke, Neurosciences, Animals, Blood-Brain Barrier, Capillary Permeability, Intracranial Hemorrhages, Male, Mice, Stress Fibers, Cortactin, intracerebral hemorrhage, LIM kinase, PDGFR-beta, stress fibers, PDGFR-β, Cardiorespiratory Medicine and Haematology, Clinical Sciences, Neurology & Neurosurgery, Clinical sciences
Abstract

Intracerebral hemorrhage (ICH) represents the deadliest subtype of all strokes. The development of brain edema, a consequence of blood-brain barrier (BBB) disruption, is the most life-threatening event after ICH. Pathophysiological conditions activate the endothelium, one of the components of BBB, inducing rearrangement of the actin cytoskeleton. Upon activation, globular actin assembles into a filamentous actin resulting in the formation of contractile actin bundles, stress fibers. The contraction of stress fibers leads to the formation of intercellular gaps between endothelial cells increasing the permeability of BBB. In the present study, we investigated the effect of ICH on stress fiber formation in CD1 mice. We hypothesized that ICH-induced formation of stress fiber is triggered by the activation of PDGFR-β and mediated by the cortactin/RhoA/LIMK pathway. We demonstrated that ICH induces formation of stress fibers. Furthermore, we demonstrated that the inhibition of PDGFR-β and its downstream reduced the number of stress fibers, preserving BBB and resulting in the amelioration of brain edema and improvement of neurological functions in mice after ICH.

Published
2018

7. Recanalization, reperfusion, and recirculation in stroke

Author

Zhang, John H, Obenaus, Andre, Liebeskind, David S, Tang, Jiping, Hartman, Richard, and Pearce, William J

Subjects
Biomedical and Clinical Sciences, Neurosciences, Clinical Sciences, Brain Disorders, Stroke, Cardiovascular, Animals, Arteries, Brain, Cerebrovascular Circulation, Humans, Reperfusion, Veins, Recanalization, recirculation, reperfusion, stroke pathophysiology, stroke treatment, Cardiorespiratory Medicine and Haematology, Neurology & Neurosurgery, Clinical sciences
Abstract

Recirculation, from arterial inflow routes through venous outflow pathways, was conceptualized in stroke research 50 years ago. As new technologies were developed, blocked arteries could be reopened, capillaries could be reperfused, and the use of recanalization and reperfusion grew to dominate therapeutic strategies. These approaches overwhelmingly focused on restoration of arterial and capillary inflow, but not on veins even though venous disorders may initiate or exacerbate brain injury. In this commentary, we advance the term "recirculation" after "recanalization" and "reperfusion" as a primary concept of stroke pathophysiology that targets the restoration of both the arterial and venous cerebral circulations.

Published
2017

10. Role of PDGF-D and PDGFR-β in neuroinflammation in experimental ICH mice model

Author

Yang, Peng, Manaenko, Anatol, Xu, Feng, Miao, Liyan, Wang, Gaiqing, Hu, Xuezhen, Guo, Zhen-Ni, Hu, Qin, Hartman, Richard E, Pearce, William J, Obenaus, Andre, Zhang, John H, Chen, Gang, and Tang, Jiping

Subjects
Biomedical and Clinical Sciences, Clinical Sciences, Neurosciences, Aetiology, 2.1 Biological and endogenous factors, Aminocaproic Acid, Animals, Basal Ganglia, Brain Edema, Cerebral Hemorrhage, Disease Models, Animal, Encephalitis, Exploratory Behavior, Fibrinolysin, Fibrinolytic Agents, Gene Expression Regulation, Imatinib Mesylate, Macrophages, Male, Mice, Microglia, Nerve Tissue Proteins, Platelet-Derived Growth Factor, Protein Kinase Inhibitors, RNA, Small Interfering, Receptor, Platelet-Derived Growth Factor beta, PDGF-D, PDGFR-beta, ICH, Neuroinflammation, PDGFR-β, Psychology, Neurology & Neurosurgery, Biological psychology
Abstract

ObjectiveInflammation plays a key role in the pathophysiological processes after intracerebral hemorrhage (ICH). Post-ICH macrophages infiltrate the brain and release pro-inflammatory factors (tumor necrosis factor-α), amplifying microglial activation and neutrophil infiltration. Platelet-derived growth factor receptor-β (PDGFR-β) is expressed on macrophages and it's activation induces the recruitment of macrophages. Platelet-derived growth factor-D (PDGF-D) is an agonist with a significantly higher affinity to the PDGFR-β compared to another isoform of the receptor. In this study, we investigated the role of PDGF-D in the pro-inflammatory response after ICH in mice.MethodsA blood injection model of ICH was used in eight-week old male CD1 mice (weight 30g). Some mice received an injection of plasmin or PDGF-D. Gleevec, a PDGFR inhibitor, was administered at 1, 3 or 6h post-ICH. Plasmin was administered with or without PDGF-D siRNAs mixture or scramble siRNA. A plasmin-antagonist, ε-Aminocaproic acid (EACA), was co-administrated with the blood. The effects of ICH and treatment on the brain injury and post-ICH inflammation were investigated.ResultsICH resulted in the overexpression of PDGF-D, associated with the infiltration of macrophages. PDGFR-inhibition decreased ICH-induced brain injury, attenuating macrophage and neutrophil infiltration, reducing microglial activation and TNF-α production. Administration of recombinant PDGF-D induced TNF-α production, and PDGFR-inhibition attenuated it. A plasmin-antagonist suppressed PDGFR-β activation and microglial activation. Plasmin increased PDGF-D expression, and PDGF-D inhibition reduced neutrophil infiltration.ConclusionICH-induced PDGF-D accumulation contributed to post-ICH inflammation via PDGFR activation and enhanced macrophage infiltration. The inhibition of PDGFR had an anti-inflammatory effect. Plasmin is a possible upstream effector of PDGF-D. The targeting of PDGF-D may provide a novel way to decrease brain injury after ICH.

Published
2016

11. Platelet-Derived Growth Factor Receptor-&bgr; Regulates Vascular Smooth Muscle Cell Phenotypic Transformation and Neuroinflammation After Intracerebral Hemorrhage in Mice

Author

Yang, Peng, Wu, Jiang, Miao, Liyan, Manaenko, Anatol, Matei, Nathanael, Zhang, Yang, Xu, Liang, Pearce, William J, Hartman, Richard E, Obenaus, Andre, Zhang, John H, Xu, Feng, and Tang, Jiping

Subjects
Neurosciences, Brain Disorders, Stroke, Biotechnology, Cardiovascular, Actins, Animals, Becaplermin, Brain Edema, Cerebral Hemorrhage, Fibrinolysin, Fibrinolytic Agents, Imatinib Mesylate, Intercellular Adhesion Molecule-1, Intracellular Signaling Peptides and Proteins, Male, Mice, Muscle, Smooth, Vascular, Neutrophils, Nonmuscle Myosin Type IIB, Phenotype, Protein Serine-Threonine Kinases, Proto-Oncogene Proteins c-sis, RNA, Small Interfering, Receptor, Platelet-Derived Growth Factor beta, Signal Transduction, p38 Mitogen-Activated Protein Kinases, intracerebral hemorrhage, neuroinflammation, phenotypic transformation, platelet-derived growth factor receptor beta, platelet-derived growth factor-BB, vascular smooth muscle cell, Clinical Sciences, Nursing, Public Health and Health Services, Emergency & Critical Care Medicine
Abstract

ObjectivePlatelet-derived growth factor-BB activates platelet-derived growth factor receptor-β and promotes vascular smooth muscle cell phenotypic transformation. Elevated levels of non-muscle myosin IIB (SMemb) are found in secretory smooth muscle cells along with inflammatory mediators, such as intercellular adhesion molecule-1, which can amplify neutrophil infiltration into the brain. In the present study, we investigated the role of platelet-derived growth factor-BB/platelet-derived growth factor receptor-β following intracerebral hemorrhage-induced brain injury in mice, with emphasis on its ability to promote vascular smooth muscle cell phenotypic transformation followed by increased intercellular adhesion molecule-1 expression and elevated neutrophil infiltration in the vicinity of the hematoma. We also determined the extent to which plasmin from the hematoma influences the platelet-derived growth factor-BB/platelet-derived growth factor receptor-β system subsequent to intracerebral hemorrhage.DesignControlled in vivo laboratory study.SettingAnimal research laboratory.SubjectsOne hundred and fifty six eight-week-old male CD1 mice.InterventionsBrain injury was induced by autologous arterial blood or plasmin injection into mouse brains. Small interfering RNA targeting platelet-derived growth factor receptor-β was administered 24 hours before intracerebral hemorrhage. A platelet-derived growth factor receptor antagonist, Gleevec, was administered following intracerebral hemorrhage. A mitogen-activated protein kinase-activated protein kinase 2 inhibitor (KKKALNRQLGVAA) was delivered with platelet-derived growth factor-BB in naïve animals. Platelet-derived growth factor-BB was injected with a plasmin inhibitor (ε-aminocaproic acid) in intracerebral hemorrhage mice. Plasmin-injected mice were given platelet-derived growth factor receptor-β small interfering RNA 24 hours before the operation. Neurological deficits, brain edema, western blots, and immunofluorescence were evaluated.Measurements and main resultsPlatelet-derived growth factor receptor-β small interfering RNA attenuated SMemb and intercellular adhesion molecule-1 expression and neutrophil infiltration at 24 hours post injury and reduced neurological deficits and brain edema at 24 and 72 hours following intracerebral hemorrhage. The platelet-derived growth factor receptor antagonist, Gleevec, reduced SMemb and intercellular adhesion molecule-1 expression. Platelet-derived growth factor receptor-β activation led to increased expression of intercellular adhesion molecule-1 and was reversed by KKKALNRQLGVAA in naïve mice. Plasmin inhibition suppressed platelet-derived growth factor receptor-β activation and neutrophil infiltration, whereas exogenous platelet-derived growth factor-BB increased platelet-derived growth factor receptor-β activation, regardless of plasmin inhibition. Platelet-derived growth factor receptor-β small interfering RNA decreased the expression of intercellular adhesion molecule-1 by plasmin injection.ConclusionThe platelet-derived growth factor-BB/platelet-derived growth factor receptor-β system contributes to neuroinflammation through vascular smooth muscle cell phenotypic transformation near the hematoma via the p38 mitogen-activated protein kinase/mitogen-activated protein kinase-activated protein kinase 2 pathway following intracerebral hemorrhage. Plasmin is hypothesized to be upstream of the proposed neuroinflammatory system. The therapeutic intervention targeting the platelet-derived growth factor-BB/platelet-derived growth factor receptor-β is a novel strategy to prevent plasmin-induced brain injury following intracerebral hemorrhage.

Published
2016

12. Recombinant Osteopontin Stabilizes Smooth Muscle Cell Phenotype via Integrin Receptor/Integrin-Linked Kinase/Rac-1 Pathway After Subarachnoid Hemorrhage in Rats

Author

Wu, Jiang, Zhang, Yang, Yang, Peng, Enkhjargal, Budbazar, Manaenko, Anatol, Tang, Jiping, Pearce, William J, Hartman, Richard, Obenaus, Andre, Chen, Gang, and Zhang, John H

Subjects
Biomedical and Clinical Sciences, Neurosciences, Clinical Sciences, Stroke, Genetics, Brain Disorders, 2.1 Biological and endogenous factors, Aetiology, Neurological, Animals, Cerebral Arteries, Disease Models, Animal, Integrins, Male, Muscle, Smooth, Vascular, Myocytes, Smooth Muscle, Neuroprotective Agents, Osteopontin, Phenotype, Protein Serine-Threonine Kinases, Rats, Rats, Sprague-Dawley, Recombinant Proteins, Subarachnoid Hemorrhage, rac1 GTP-Binding Protein, blotting, Western, cerebral arteries, muscle, smooth, vascular, rats, Sprague-Dawley, subarachnoid hemorrhage, muscle, smooth, vascular, Cardiorespiratory Medicine and Haematology, Neurology & Neurosurgery, Clinical sciences, Allied health and rehabilitation science
Abstract

Background and purposeRecombinant osteopontin (rOPN) has been reported to be neuroprotective in stroke animal models. The purpose of this study is to investigate a potential role and mechanism of nasal administration of rOPN on preserving the vascular smooth muscle phenotype in early brain injury after subarachnoid hemorrhage (SAH).MethodsOne hundred and ninety-two male adult Sprague-Dawley rats were used. The SAH model was induced by endovascular perforation. Integrin-linked kinase small interfering RNA was intracerebroventricularly injected 48 hours before SAH. The integrin receptor antagonist fibronectin-derived peptide Gly-Arg-Gly-Asp-Ser-Pro (GRGDSP), focal adhesion kinase inhibitor Fib-14, and Rac-1 inhibitor NSC23766 were administered 1 hour before SAH induction. rOPN was administered via the intracerebroventricular and nasal route after SAH. SAH grade, neurological scores, brain water content, brain swelling, hematoxylin and eosin staining, India ink angiography, Western blots, and immunofluorescence were used to study the mechanisms of rOPN on the vascular smooth muscle phenotypic transformation.ResultsThe marker proteins of vascular smooth muscle phenotypic transformation α-smooth muscle actin decreased and embryonic smooth muscle myosin heavy chain (SMemb) increased significantly at 24 and 72 hours in the cerebral arteries after SAH. rOPN prevented the changes of α-smooth muscle actin and SMemb and significantly alleviated neurobehavioral dysfunction, increased the cross-sectional area and the lumen diameter of the cerebral arteries, reduced the brain water content and brain swelling, and improved the wall thickness of cerebral arteries. These effects of rOPN were abolished by GRGDSP, integrin-linked kinase small interfering RNA, and NSC23766. Intranasal application of rOPN at 3 hours after SAH also reduced neurological deficits.ConclusionsrOPN prevented the vascular smooth muscle phenotypic transformation and improved the neurological outcome, which was possibly mediated by the integrin receptor/integrin-linked kinase/Rac-1 pathway.

Published
2016

13. Mild Concussion, but Not Moderate Traumatic Brain Injury, Is Associated with Long-Term Depression-Like Phenotype in Mice.

Author

Bajwa, Nikita M, Halavi, Shina, Hamer, Mary, Semple, Bridgette D, Noble-Haeusslein, Linda J, Baghchechi, Mohsen, Hiroto, Alex, Hartman, Richard E, and Obenaus, André

Subjects
Cerebral Cortex, Animals, Mice, Inbred C57BL, Mice, Brain Concussion, Disease Models, Animal, Magnetic Resonance Imaging, Behavior, Animal, Depression, Maze Learning, Cognition Disorders, Neuronal Plasticity, Male, Spatial Learning, Behavior, Animal, Disease Models, Inbred C57BL, General Science & Technology
Abstract

Mild traumatic brain injuries can lead to long-lasting cognitive and motor deficits, increasing the risk of future behavioral, neurological, and affective disorders. Our study focused on long-term behavioral deficits after repeated injury in which mice received either a single mild CHI (mCHI), a repeated mild CHI (rmCHI) consisting of one impact to each hemisphere separated by 3 days, or a moderate controlled cortical impact injury (CCI). Shams received only anesthesia. Behavioral tests were administered at 1, 3, 5, 7, and 90 days post-injury (dpi). CCI animals showed significant motor and sensory deficits in the early (1-7 dpi) and long-term (90 dpi) stages of testing. Interestingly, sensory and subtle motor deficits in rmCHI animals were found at 90 dpi. Most importantly, depression-like behaviors and social passiveness were observed in rmCHI animals at 90 dpi. These data suggest that mild concussive injuries lead to motor and sensory deficits and affective disorders that are not observed after moderate TBI.

Published
2016

14. Fetal stress-mediated hypomethylation increases the brain susceptibility to hypoxic–ischemic injury in neonatal rats

Author

Li, Yong, Ma, Qingyi, Halavi, Shina, Concepcion, Katherine, Hartman, Richard E, Obenaus, Andre, Xiao, Daliao, and Zhang, Lubo

Subjects
Paediatrics, Biomedical and Clinical Sciences, Physical Injury - Accidents and Adverse Effects, Prevention, Brain Disorders, Stroke, Neurosciences, Perinatal Period - Conditions Originating in Perinatal Period, Infant Mortality, Pediatric, 1.1 Normal biological development and functioning, Underpinning research, Reproductive health and childbirth, Animals, Animals, Newborn, Brain, DNA Methylation, Disease Susceptibility, Female, Fetal Hypoxia, Hypoxia-Inducible Factor 1, alpha Subunit, Hypoxia-Ischemia, Brain, Male, Matrix Metalloproteinase 2, Matrix Metalloproteinase 9, Pregnancy, Rats, Rats, Sprague-Dawley, Fetal hypoxia, Hypoxic-ischemic brain injury, DNA methylation, 5-aza-2 '-deoxycytidine, Hypoxia-inducible factor 1 alpha, 5-aza-2′-deoxycytidine, Hypoxia-inducible factor 1α, Hypoxic–ischemic brain injury, Clinical Sciences, Psychology, Neurology & Neurosurgery, Biological psychology
Abstract

Background and purposeFetal hypoxia increases brain susceptibility to hypoxic-ischemic (HI) injury in neonatal rats. Yet mechanisms remain elusive. The present study tested the hypothesis that DNA hypomethylation plays a role in fetal stress-induced increase in neonatal HI brain injury.MethodsPregnant rats were exposed to hypoxia (10.5% O2) from days 15 to 21 of gestation and DNA methylation was determined in the developing brain. In addition, 5-aza-2'-deoxycytidine (5-Aza) was administered in day 7 pups brains and the HI treatment was conducted in day 10 pups. Brain injury was determined by in vivo MRI 48 h after the HI treatment and neurobehavioral function was evaluated 6 weeks after the HI treatment.ResultsFetal hypoxia resulted in DNA hypomethylation in the developing brain, which persisted into 30-day old animals after birth. The treatment of neonatal brains with 5-Aza induced similar hypomethylation patterns. Of importance, the 5-Aza treatment significantly increased HI-induced brain injury and worsened neurobehavioral function recovery six weeks after the HI-treatment. In addition, 5-Aza significantly increased HIF-1α mRNA and protein abundance as well as matrix metalloproteinase (MMP)-2 and MMP-9, but decreased MMP-13 protein abundance in neonatal brains. Consistent with the 5-Aza treatment, hypoxia resulted in significantly increased expression of HIF-1α in both fetal and neonatal brains. Inhibition of HIF-1α blocked 5-Aza-mediated changes in MMPs and abrogated 5-Aza-induced increase in HI-mediated brain injury.ConclusionThe results suggest that fetal stress-mediated DNA hypomethylation in the developing brain causes programming of hypoxic-ischemic sensitive phenotype in the brain and increases the susceptibility of neonatal brain to hypoxic-ischemic injury in a HIF-1α-dependent manner.

Published
2016

16. Neuropsychological tests for predicting cognitive decline in older adults

Author

Baerresen, Kimberly M, Miller, Karen J, Hanson, Eric R, Miller, Justin S, Dye, Richelin V, Hartman, Richard E, Vermeersch, David, and Small, Gary W

Subjects
Acquired Cognitive Impairment, Dementia, Neurodegenerative, Basic Behavioral and Social Science, Alzheimer's Disease including Alzheimer's Disease Related Dementias (AD/ADRD), Neurosciences, Behavioral and Social Science, Alzheimer's Disease, Brain Disorders, Aging, Neurological, Alzheimer Disease, Cognitive Dysfunction, Disease Progression, Humans, Logistic Models, Longitudinal Studies, Middle Aged, Multivariate Analysis, Neuropsychological Tests, Prognosis, Alzheimer's disease, cognitive decline, conversion, memory disorder, mild cognitive impairment, Clinical Sciences, Psychology
Abstract

AimTo determine neuropsychological tests likely to predict cognitive decline.MethodsA sample of nonconverters (n = 106) was compared with those who declined in cognitive status (n = 24). Significant univariate logistic regression prediction models were used to create multivariate logistic regression models to predict decline based on initial neuropsychological testing.ResultsRey-Osterrieth Complex Figure Test (RCFT) Retention predicted conversion to mild cognitive impairment (MCI) while baseline Buschke Delay predicted conversion to Alzheimer's disease (AD). Due to group sample size differences, additional analyses were conducted using a subsample of demographically matched nonconverters. Analyses indicated RCFT Retention predicted conversion to MCI and AD, and Buschke Delay predicted conversion to AD.ConclusionResults suggest RCFT Retention and Buschke Delay may be useful in predicting cognitive decline.

Published
2015

18. Reparative effects of neural stem cells in neonatal rats with hypoxic–ischemic injury are not influenced by host sex

Author

Ashwal, Stephen, Ghosh, Nirmalya, Turenius, Christine I, Dulcich, Melissa, Denham, Christopher M, Tone, Beatriz, Hartman, Richard, Snyder, Evan Y, and Obenaus, Andre

Subjects
Paediatrics, Biomedical and Clinical Sciences, Transplantation, Stem Cell Research, Pediatric, Stem Cell Research - Nonembryonic - Human, Regenerative Medicine, Stem Cell Research - Nonembryonic - Non-Human, Perinatal Period - Conditions Originating in Perinatal Period, Animals, Behavior, Animal, Female, Ferric Compounds, Hypoxia-Ischemia, Brain, Magnetic Resonance Imaging, Male, Neural Stem Cells, Rats, Sex Factors, Stem Cell Transplantation, Paediatrics and Reproductive Medicine, Public Health and Health Services, Pediatrics
Abstract

BackgroundGender is increasingly recognized as an important influence on brain development, disease susceptibility, and response to pharmacologic/rehabilitative treatments. In regenerative medicine, it remains entirely unknown whether there is an interaction between transplanted stem cells and host gender that might bias efficacy and safety in some patients but not others.MethodsWe examined the role of recipient gender in a neonatal rat hypoxic-ischemic injury (HII) model, treated with female human neuronal stem cells (hNSCs), labeled with superparamagnetic iron oxide particles implanted into the contralateral cerebral ventricle. We monitored HII evolution (by magnetic resonance imaging, histopathology, behavioral testing) and hNSC fate (migration, replication, viability).ResultsRecipient gender after implantation did not influence the volume or location of ischemic injury (1, 30, or 90 d) or behavior (90 d). Superparamagnetic iron oxide labeling did not influence HII evolution. Implantation had its greatest benefit on mild/moderate injuries, which remained stable rather than increasing as in severe HII as is the natural history for such lesions.ConclusionOur results suggest that hNSC treatment (including using hNSCs that are prelabeled with iron to allow tracking in real time by magnetic resonance imaging) would be equally safe and effective for male and female human newborns with mild-to-moderate HII.

Published
2014

20. Posttraumatic Reduction of Edema with Aquaporin-4 RNA Interference Improves Acute and Chronic Functional Recovery

Author

Fukuda, Andrew M, Adami, Arash, Pop, Viorela, Bellone, John A, Coats, Jacqueline S, Hartman, Richard E, Ashwal, Stephen, Obenaus, Andre, and Badaut, Jerome

Subjects
Biotechnology, Traumatic Head and Spine Injury, Pediatric, Unintentional Childhood Injury, Neurosciences, Brain Disorders, Physical Injury - Accidents and Adverse Effects, Childhood Injury, Traumatic Brain Injury (TBI), Neurological, Animals, Animals, Newborn, Aquaporin 4, Behavior, Animal, Brain Edema, Brain Injuries, Gene Silencing, Magnetic Resonance Imaging, Microinjections, RNA, Small Interfering, Rats, Rats, Sprague-Dawley, Recovery of Function, aquaporin, astrocyte, juvenile traumatic brain injury, pediatric neurology, siRNA
Abstract

Traumatic brain injury (TBI) is common in young children and adolescents and is associated with long-term disability and mortality. The neuropathologic sequelae that result from juvenile TBI are a complex cascade of events that include edema formation and brain swelling. Brain aquaporin-4 (AQP4) has a key role in edema formation. Thus, development of novel treatments targeting AQP4 to reduce edema could lessen the neuropathologic sequelae. We hypothesized that inhibiting AQP4 expression by injection of small-interfering RNA (siRNA) targeting AQP4 (siAQP4) after juvenile TBI would decrease edema formation, neuroinflammation, neuronal cell death, and improve neurologic outcomes. The siAQP4 or a RNA-induced silencing complex (RISC)-free control siRNA (siGLO) was injected lateral to the trauma site after controlled cortical impact in postnatal day 17 rats. Magnetic resonance imaging, neurologic testing, and immunohistochemistry were performed to assess outcomes. Pups treated with siAQP4 showed acute (3 days after injury) improvements in motor function and in spatial memory at long term (60 days after injury) compared with siGLO-treated animals. These improvements were associated with decreased edema formation, increased microglial activation, decreased blood-brain barrier disruption, reduced astrogliosis and neuronal cell death. The effectiveness of our treatment paradigm was associated with a 30% decrease in AQP4 expression at the injection site.

Published
2013

21. Computational analysis reveals increased blood deposition following repeated mild traumatic brain injury

Author

Donovan, Virginia, Bianchi, Anthony, Hartman, Richard, Bhanu, Bir, Carson, Monica J, and Obenaus, Andre

Subjects
Biomedical and Clinical Sciences, Neurosciences, Traumatic Head and Spine Injury, Brain Disorders, Physical Injury - Accidents and Adverse Effects, Traumatic Brain Injury (TBI), Biomedical Imaging, Aetiology, 2.1 Biological and endogenous factors, Neurological, Edema, Hemorrhagic progression, Histogram, T2, Quantitative magnetic resonance imaging, DTI, diffusion tensor imaging, FA, fractional anisotropy, HPC, hemorrhagic progression of the contusion, MD, mean diffusivity, Biological psychology, Clinical and health psychology
Abstract

Mild traumatic brain injury (mTBI) has become an increasing public health concern as subsequent injuries can exacerbate existing neuropathology and result in neurological deficits. This study investigated the temporal development of cortical lesions using magnetic resonance imaging (MRI) to assess two mTBIs delivered to opposite cortical hemispheres. The controlled cortical impact model was used to produce an initial mTBI on the right cortex followed by a second injury induced on the left cortex at 3 (rmTBI 3d) or 7 (rmTBI 7d) days later. Histogram analysis was combined with a novel semi-automated computational approach to perform a voxel-wise examination of extravascular blood and edema volumes within the lesion. Examination of lesion volume 1d post last injury revealed increased tissue abnormalities within rmTBI 7d animals compared to other groups, particularly at the site of the second impact. Histogram analysis of lesion T2 values suggested increased edematous tissue within the rmTBI 3d group and elevated blood deposition in the rm TBI 7d animals. Further quantification of lesion composition for blood and edema containing voxels supported our histogram findings, with increased edema at the site of second impact in rmTBI 3d animals and elevated blood deposition in the rmTBI 7d group at the site of the first injury. Histological measurements revealed spatial overlap of regions containing blood deposition and microglial activation within the cortices of all animals. In conclusion, our findings suggest that there is a window of tissue vulnerability where a second distant mTBI, induced 7d after an initial injury, exacerbates tissue abnormalities consistent with hemorrhagic progression.

Published
2012

36. Persistent autism-relevant behavioral phenotype and social neuropeptide alterations in female mice offspring induced by maternal transfer of PBDE congeners in the commercial mixture DE-71

Author

Kozlova, Elena V., primary, Valdez, Matthew C., additional, Denys, Maximillian E., additional, Bishay, Anthony E., additional, Krum, Julia M., additional, Rabbani, Kayhon M., additional, Carrillo, Valeria, additional, Gonzalez, Gwendolyn M., additional, Lampel, Gregory, additional, Tran, Jasmin D., additional, Vazquez, Brigitte M., additional, Anchondo, Laura M., additional, Uddin, Syed A., additional, Huffman, Nicole M., additional, Monarrez, Eduardo, additional, Olomi, Duraan S., additional, Chinthirla, Bhuvaneswari D., additional, Hartman, Richard E., additional, Kodavanti, Prasada Rao S., additional, Chompre, Gladys, additional, Phillips, Allison L., additional, Stapleton, Heather M., additional, Henkelmann, Bernhard, additional, Schramm, Karl-Werner, additional, and Curras-Collazo, Margarita C., additional

Published
2021
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