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1. Maternal e-cigarette use can disrupt postnatal blood-brain barrier (BBB) integrity and deteriorates motor, learning and memory function: influence of sex and age

Author

Sabrina Rahman Archie, Ali Ehsan Sifat, Yong Zhang, Heidi Villalba, Sejal Sharma, Saeideh Nozohouri, and Thomas J. Abbruscato

Subjects
Electronic cigarette, Maternal, Postnatal, Blood-brain barrier, Behavioral outcomes, Sex, Neurology. Diseases of the nervous system, RC346-429
Abstract

Abstract Electronic nicotine delivery systems (ENDS), also commonly known as electronic cigarettes (e-cigs) are considered in most cases as a safer alternative to tobacco smoking and therefore have become extremely popular among all age groups and sex. It is estimated that up to 15% of pregnant women are now using e-cigs in the US which keeps increasing at an alarming rate. Harmful effects of tobacco smoking during pregnancy are well documented for both pregnancy and postnatal health, however limited preclinical and clinical studies exist to evaluate the long-term effects of prenatal e-cig exposure on postnatal health. Therefore, the aim of our study is to evaluate the effect of maternal e-cig use on postnatal blood-brain barrier (BBB) integrity and behavioral outcomes of mice of varying age and sex. In this study, pregnant CD1 mice (E5) were exposed to e‐Cig vapor (2.4% nicotine) until postnatal day (PD) 7. Weight of the offspring was measured at PD0, PD7, PD15, PD30, PD45, PD60 and PD90. The expression of structural elements of the BBB, tight junction proteins (ZO-1, claudin-5, occludin), astrocytes (GFAP), pericytes (PDGFRβ) and the basement membrane (laminin α1, laminin α4), neuron specific marker (NeuN), water channel protein (AQP4) and glucose transporter (GLUT1) were analyzed in both male and female offspring using western blot and immunofluorescence. Estrous cycle was recorded by vaginal cytology method. Long‐term motor and cognitive functions were evaluated using open field test (OFT), novel object recognition test (NORT) and morris water maze test (MWMT) at adolescence (PD 40–45) and adult (PD 90–95) age. In our study, significantly reduced expression of tight junction proteins and astrocyte marker were observed in male and female offspring until PD 90 (P

Published
2023
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2. Recent advances and clinical pharmacology aspects of Chimeric Antigen Receptor (CAR) T‐cellular therapy development

Author

Johannes Kast, Saeideh Nozohouri, Di Zhou, Marc R. Yago, Po‐Wei Chen, Malidi Ahamadi, Sandeep Dutta, and Vijay V. Upreti

Subjects
Therapeutics. Pharmacology, RM1-950, Public aspects of medicine, RA1-1270
Abstract

Abstract Advances in immuno‐oncology have provided a variety of novel therapeutics that harness the innate immune system to identify and destroy neoplastic cells. It is noteworthy that acceptable safety profiles accompany the development of these targeted therapies, which result in efficacious cancer treatment with higher survival rates and lower toxicities. Adoptive cellular therapy (ACT) has shown promising results in inducing sustainable remissions in patients suffering from refractory diseases. Two main types of ACT include engineered Chimeric Antigen Receptor (CAR) T cells and T cell receptor (TCR) T cells. The application of these immuno‐therapies in the last few years has been successful and has demonstrated a safe and rapid treatment regimen for solid and non‐solid tumors. The current review presents an insight into the clinical pharmacology aspects of immuno‐therapies, especially CAR‐T cells. Here, we summarize the current knowledge of TCR and CAR‐T cell immunotherapy with particular focus on the structure of CAR‐T cells, the effects and toxicities associated with these therapies in clinical trials, risk mitigation strategies, dose selection approaches, and cellular kinetics. Finally, the quantitative approaches and modeling techniques used in the development of CAR‐T cell therapies are described.

Published
2022
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3. Short-term exposure to JUUL electronic cigarettes can worsen ischemic stroke outcome

Author

Ali Ehsan Sifat, Sabrina Rahman Archie, Saeideh Nozohouri, Heidi Villalba, Yong Zhang, Sejal Sharma, Yashwardhan Ghanwatkar, Bhuvaneshwar Vaidya, David Mara, Luca Cucullo, and Thomas J. Abbruscato

Subjects
Cerebrovascular, Blood–brain barrier, Vaping, Oxidative, Inflammation, Endothelium, Neurology. Diseases of the nervous system, RC346-429
Abstract

Abstract Background The short and long-term health effects of JUUL electronic cigarette (e-Cig) are largely unknown and warrant extensive research. We hypothesized that JUUL exposure could cause cerebrovascular toxicities impacting the progression and outcome of ischemic stroke comparable to tobacco smoke (TS) exposure. Methods We exposed male C57 mice to TS/JUUL vapor for 14 days. LCMS/MS was used to measure brain and plasma nicotine and cotinine level. Transient middle cerebral artery occlusion (tMCAO) followed by reperfusion was used to mimic ischemic stroke. Plasma levels of IL-6 and thrombomodulin were assessed by enzyme-linked immunosorbent assay. At the same time, western blotting was used to study blood–brain barrier (BBB) tight junction (TJ) proteins expression and key inflammatory and oxidative stress markers. Results tMCAO upregulated IL-6 and decreased plasma thrombomodulin levels. Post-ischemic brain injury following tMCAO was significantly worsened by JUUL/TS pre-exposure. TJ proteins expression was also downregulated by JUUL/TS pre-exposure after tMCAO. Like TS, exposure to JUUL downregulated the expression of the antioxidant Nrf2. ICAM-1 was upregulated in mice subjected to tMCAO following pre-exposure to TS or JUUL, with a greater effect of TS than JUUL. Conclusions These results suggest that JUUL exposure could negatively impact the cerebrovascular system, although to a lesser extent than TS exposure.

Published
2022
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4. Potential role of astrocyte angiotensin converting enzyme 2 in the neural transmission of COVID-19 and a neuroinflammatory state induced by smoking and vaping

Author

Yong Zhang, Sabrina Rahman Archie, Yashwardhan Ghanwatkar, Sejal Sharma, Saeideh Nozohouri, Elizabeth Burks, Alexander Mdzinarishvili, Zijuan Liu, and Thomas J. Abbruscato

Subjects
COVID-19, SARS-CoV-2, ACE2, Astrocyte, Inflammation, Neurogenesis, Neurology. Diseases of the nervous system, RC346-429
Abstract

Abstract Background Knowledge of the entry receptors responsible for SARS-CoV-2 is key to understand the neural transmission and pathogenesis of COVID-19 characterized by a neuroinflammatory scenario. Understanding the brain distribution of angiotensin converting enzyme 2 (ACE2), the primary entry receptor for SARS-CoV-2, remains mixed. Smoking has been shown as a risk factor for COVID-19 severity and it is not clear how smoking exacerbates the neural pathogenesis in smokers. Methods Immunohistochemistry, real-time PCR and western blot assays were used to systemically examine the spatial-, cell type- and isoform-specific expression of ACE2 in mouse brain and primary cultured brain cells. Experimental smoking exposure was conducted to evaluate the effect of smoking on brain expression. Results We observed ubiquitous expression of ACE2 but uneven brain distribution, with high expression in the cerebral microvasculature, medulla oblongata, hypothalamus, subventricular zones, and meninges around medulla oblongata and hypothalamus. Co-staining with cell type-specific markers demonstrates ACE2 is primarily expressed in astrocytes around the microvasculature, medulla oblongata, hypothalamus, ventricular and subventricular zones of cerebral ventricles, and subependymal zones in rhinoceles and rostral migratory streams, radial glial cells in the lateral ventricular zones, tanycytes in the third ventricle, epithelial cells and stroma in the cerebral choroid plexus, as well as cerebral pericytes, but rarely detected in neurons and cerebral endothelial cells. ACE2 expression in astrocytes is further confirmed in primary cultured cells. Furthermore, isoform-specific analysis shows astrocyte ACE2 has the peptidase domain responsible for SARS-CoV-2 entry, indicating astrocytes are indeed vulnerable to SARS-CoV-2 infection. Finally, our data show experimental tobacco smoking and electronic nicotine vaping exposure increase proinflammatory and/or immunomodulatory cytokine IL-1a, IL-6 and IL-5 without significantly affecting ACE2 expression in the brain, suggesting smoking may pre-condition a neuroinflammatory state in the brain. Conclusions The present study demonstrates a spatial- and cell type-specific expression of ACE2 in the brain, which might help to understand the acute and lasting post-infection neuropsychological manifestations in COVID-19 patients. Our data highlights a potential role of astrocyte ACE2 in the neural transmission and pathogenesis of COVID-19. This also suggests a pre-conditioned neuroinflammatory and immunocompromised scenario might attribute to exacerbated COVID-19 severity in the smokers.

Published
2022
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5. Permeability of Metformin across an In Vitro Blood–Brain Barrier Model during Normoxia and Oxygen-Glucose Deprivation Conditions: Role of Organic Cation Transporters (Octs)

Author

Sejal Sharma, Yong Zhang, Khondker Ayesha Akter, Saeideh Nozohouri, Sabrina Rahman Archie, Dhavalkumar Patel, Heidi Villalba, and Thomas Abbruscato

Subjects
metformin, ischemic stroke, repurposing, transporters, in vitro, BBB, Pharmacy and materia medica, RS1-441
Abstract

Our lab previously established that metformin, a first-line type two diabetes treatment, activates the Nrf2 pathway and improves post-stroke recovery. Metformin’s brain permeability value and potential interaction with blood–brain barrier (BBB) uptake and efflux transporters are currently unknown. Metformin has been shown to be a substrate of organic cationic transporters (Octs) in the liver and kidneys. Brain endothelial cells at the BBB have been shown to express Octs; thus, we hypothesize that metformin uses Octs for its transport across the BBB. We used a co-culture model of brain endothelial cells and primary astrocytes as an in vitro BBB model to conduct permeability studies during normoxia and hypoxia using oxygen–glucose deprivation (OGD) conditions. Metformin was quantified using a highly sensitive LC-MS/MS method. We further checked Octs protein expression using Western blot analysis. Lastly, we completed a plasma glycoprotein (P-GP) efflux assay. Our results showed that metformin is a highly permeable molecule, uses Oct1 for its transport, and does not interact with P-GP. During OGD, we found alterations in Oct1 expression and increased permeability for metformin. Additionally, we showed that selective transport is a key determinant of metformin’s permeability during OGD, thus, providing a novel target for improving ischemic drug delivery.

Published
2023
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7. Brain Energy Metabolism in Ischemic Stroke: Effects of Smoking and Diabetes

Author

Ali Ehsan Sifat, Saeideh Nozohouri, Sabrina Rahman Archie, Ekram Ahmed Chowdhury, and Thomas J. Abbruscato

Subjects
brain, diabetes, energy metabolism, ischemic stroke, smoking, Biology (General), QH301-705.5, Chemistry, QD1-999
Abstract

Proper regulation of energy metabolism in the brain is crucial for maintaining brain activity in physiological and different pathophysiological conditions. Ischemic stroke has a complex pathophysiology which includes perturbations in the brain energy metabolism processes which can contribute to worsening of brain injury and stroke outcome. Smoking and diabetes are common risk factors and comorbid conditions for ischemic stroke which have also been associated with disruptions in brain energy metabolism. Simultaneous presence of these conditions may further alter energy metabolism in the brain leading to a poor clinical prognosis after an ischemic stroke event. In this review, we discuss the possible effects of smoking and/or diabetes on brain glucose utilization and mitochondrial energy metabolism which, when present concurrently, may exacerbate energy metabolism in the ischemic brain. More research is needed to investigate brain glucose utilization and mitochondrial oxidative metabolism in ischemic stroke in the presence of smoking and/or diabetes, which would provide further insights on the pathophysiology of these comorbid conditions and facilitate the development of therapeutic interventions.

Published
2022
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8. Brain Delivery of a Potent Opioid Receptor Agonist, Biphalin during Ischemic Stroke: Role of Organic Anion Transporting Polypeptide (OATP)

Author

Thamer H Albekairi, Bhuvaneshwar Vaidya, Ronak Patel, Saeideh Nozohouri, Heidi Villalba, Yong Zhang, Yeon Sun Lee, Abraham Al-Ahmad, and Thomas J Abbruscato

Subjects
biphalin, organic anion transporting polypeptide, blood-brain barrier, transport mechanism, ischemic stroke, Pharmacy and materia medica, RS1-441
Abstract

Transporters (expressed) at the blood-brain barrier (BBB) can play an essential role in the treatment of brain injury by transporting neuroprotective substance to the central nervous system. The goal of this study was to understand the role of organic anion transporting polypeptide (OATP1; OATP1A2 in humans and oatp1a4 in rodents) in the transport of a potent opioid receptor agonist, biphalin, across the BBB during ischemic stroke. Brain microvascular endothelial cells (BMECs) that were differentiated from human induced pluripotent stem cells (iPSCs) were used in the present study. The effect of oxygen-glucose deprivation (OGD) and reperfusion on the OATP1 expression, uptake, and transport of biphalin was measured in induced pluripotent stem cells differentiated brain microvascular endothelial cells (iPSC−BMECs) in the presence and absence of an OATP1 substrate, estrone-3-sulfate (E3S). Biphalin brain permeability was quantified while using a highly sensitive liquid chromatography-tandem mass spectrometry (LC-MS/MS) method. It was found that iPSC-BMECs expressed OATP1. In vitro studies showed that biphalin BBB uptake and transport decreased in the presence of an OATP1 specific substrate. It was also observed that OGD and reperfusion modulate the expression and function of OATP1 in BMECs. This study strongly demonstrates that OATP1 contributes to the transport of biphalin across the BBB and increased expression of OATP1 during OGD-reperfusion could provide a novel target for improving ischemic brain drug delivery of biphalin or other potential neurotherapeutics that have affinity to this BBB transporter.

Published
2019
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11. Maternal E-Cigarette Use Can Disrupt Postnatal Blood-Brain Barrier (BBB) Integrity and Deteriorates Motor, Learning and Memory Function: Influence of Sex and Age

Author

Sabrina Rahman Archie, Ali Ehsan Sifat, Yong Zhang, Heidi Villalba, Sejal Sharma, Saeideh Nozohouri, and Thomas J. Abbruscato

Subjects
Cellular and Molecular Neuroscience, Developmental Neuroscience, Neurology, General Medicine
Abstract

Electronic nicotine delivery systems (ENDS), also commonly known as electronic cigarettes (e-cigs) are considered in most cases as a safer alternative to tobacco smoking and therefore have become extremely popular among all age groups and sex. It is estimated that up to 15% of pregnant women are now using e-cigs in the US which keeps increasing at an alarming rate. Harmful effects of tobacco smoking during pregnancy are well documented for both pregnancy and postnatal health, however limited preclinical and clinical studies exist to evaluate the long-term effects of prenatal e-cig exposure on postnatal health. Therefore, the aim of our study is to evaluate the effect of maternal e-cig use on postnatal blood-brain barrier (BBB) integrity and behavioral outcomes of mice of varying age and sex. In this study, pregnant CD1 mice (E5) were exposed to e-Cig vapor (2.4% nicotine) until postnatal day (PD) 7. Weight of the offspring was measured at PD0, PD7, PD15, PD30, PD45, PD60 and PD90. The expression of structural elements of the BBB, tight junction proteins (ZO-1, claudin-5, occludin), astrocytes (GFAP), pericytes (PDGFRβ) and the basement membrane (laminin α1, laminin α4), neuron specific marker (NeuN), water channel protein (AQP4) and glucose transporter (GLUT1) were analyzed in both male and female offspring using Western blot and immunofluorescence. Estrous cycle was recorded by vaginal cytology method. Long‐term motor and cognitive functions were evaluated using open field test, novel object recognition test (NORT) and morris water maze test (MWMT) at adolescence (PD 40–45) and adult (PD 90–95) age. In our study, significantly reduced expression of tight junction proteins and astrocyte markers were observed in male and female offspring until PD 90 (P

Published
2022

12. Glutamate Buffering Capacity and Blood-Brain Barrier Protection of Opioid Receptor Agonists Biphalin and Nociceptin

Author

Thamer H. Albekairi, Yong Zhang, Thomas J. Abbruscato, Saeideh Nozohouri, and Bhuvaneshwar Vaidya

Subjects
medicine.drug_class, Glutamic Acid, Pharmacology, Blood–brain barrier, Neuroprotection, Biphalin, Capillary Permeability, Mice, chemistry.chemical_compound, Opioid receptor, medicine, Animals, Receptor, Analgesics, Dose-Response Relationship, Drug, Glutamate receptor, Enkephalins, Coculture Techniques, Analgesics, Opioid, Nociceptin receptor, Neuroprotective Agents, medicine.anatomical_structure, Animals, Newborn, Opioid Peptides, chemistry, Opioid, Blood-Brain Barrier, Receptors, Opioid, Molecular Medicine, medicine.drug
Abstract

Opioids play crucial roles in the regulation of many important brain functions including pain, memory, and neurogenesis. Activation of opioid receptors is reported to have neuroprotective effects after ischemic reperfusion injury. The objective of this study was to understand the role of biphalin and nociceptin, opioid receptor agonists, on blood-brain barrier (BBB) integrity during ischemic stroke. In this study, we aimed to measure the effect of biphalin and nociceptin on astrocytic glutamate uptake and on expression of excitatory amino acid transporter to study the indirect role of astrocytes on opioid receptor–mediated BBB protection during in vitro stroke conditions. We used mouse brain endothelial cells (bEnd.3) and primary astrocytes as an in vitro BBB model. Restrictive BBB properties were evaluated by measuring [14C] sucrose paracellular permeability and the redistribution of the tight junction proteins. The protective effect of biphalin and nociceptin on BBB integrity was assessed after exposing cells to oxygen glucose deprivation (OGD) and glutamate. It was observed that combined stress (2 mM glutamate and 2 hours of OGD) significantly reduced glutamate uptake by astrocytes; however, biphalin and nociceptin treatment increased glutamate uptake in primary astrocytes. This suggests a role of increased astrocytic buffering capacity in opioid-meditated protection of the BBB during ischemic stroke. It was also found that the combined stress significantly increased [14C] sucrose paracellular permeability in an in vitro BBB model. Biphalin and nociceptin treatment attenuated the effect of the combined stress, which was reversed by the opioid receptor antagonists, suggesting the role of opioid receptors in biphalin and nociception’s BBB modulatory activity. Significant Statement There is an unmet need for discovering new efficacious therapeutic agents to offset the deleterious effects of ischemic stroke. Given the confirmed roles of opioid receptors in the regulation of central nervous system functions, opioid receptor agonists have been studied as potential neuroprotective options in ischemic conditions. This study adds to the knowledge about the cerebrovascular protective effects of opioid receptor agonists and provides insight about the mechanism of action of these agents.

Published
2021

13. Dental Pulp-Derived Stem Cells Preserve Astrocyte Health During Induced Gliosis by Modulating Mitochondrial Activity and Functions

Author

Derek Barthels, Prateeksha Prateeksha, Saeideh Nozohouri, Heidi Villalba, Yong Zhang, Sejal Sharma, Sarah Anderson, Md Sariful Islam Howlader, Adarsh Nambiar, Thomas J. Abbruscato, and Hiranmoy Das

Subjects
Cellular and Molecular Neuroscience, Cell Biology, General Medicine
Abstract

Astrocytes have been implicated in the onset and complication of various central nervous system (CNS) injuries and disorders. Uncontrolled astrogliosis (gliosis), while a necessary process for recovery after CNS trauma, also causes impairments in CNS performance and functions. The ability to preserve astrocyte health and better regulate the gliosis process could play a major role in controlling damage in the aftermath of acute insults and during chronic dysfunction. Here in, we demonstrate the ability of dental pulp-derived stem cells (DPSCs) in protecting the health of astrocytes during induced gliosis. First of all, we have characterized the expression of genes in primary astrocytes that are relevant to the pathological conditions of CNS by inducing gliosis. Subsequently, we found that astrocytes co-cultured with DPSCs reduced ROS production, NRF2 and GCLM expressions, mitochondrial membrane potential, and mitochondrial functions compared to the astrocytes that were not co-cultured with DPSCs in gliosis condition. In addition, hyperactive autophagy was also decreased in astrocytes that were co-cultured with DPSCs compared to the astrocytes that were not co-cultured with DPSCs during gliosis. This reversal and mitigation of gliosis in astrocytes were partly due to induction of neurogenesis in DPSCs through enhanced expressions of the neuronal genes like GFAP, NeuN, and Synapsin in DPSCs and by secretion of higher amounts of neurotropic factors, such as BDNF, GDNF, and TIMP-2. Protein-Protein docking analysis suggested that BDNF and GDNF can bind with CSPG4 and block the downstream signaling. Together these findings demonstrate novel functions of DPSCs to preserve astrocyte health during gliosis.

Published
2022

14. Studies on diketopiperazine and dipeptide analogs as opioid receptor ligands

Author

Siavash Shahbazi Nia, Mohammad Anwar Hossain, Guangchen Ji, Sravan K. Jonnalagadda, Samuel Obeng, Md Ashrafur Rahman, Ali Ehsan Sifat, Saeideh Nozohouri, Collin Blackwell, Dhavalkumar Patel, Jon Thompson, Scott Runyon, Takato Hiranita, Christopher R. McCurdy, Lance McMahon, Thomas J. Abbruscato, Paul C. Trippier, Volker Neugebauer, and Nadezhda A. German

Subjects
Pharmacology, Organic Chemistry, Drug Discovery, General Medicine
Published
2023

15. CNS Delivery of Nucleic Acid Therapeutics: Beyond the Blood-Brain Barrier and Towards Specific Cellular Targeting

Author

Anisha D’Souza, Saeideh Nozohouri, Benjamin S. Bleier, and Mansoor M. Amiji

Subjects
Pharmacology, Organic Chemistry, Pharmaceutical Science, Molecular Medicine, Pharmacology (medical), Biotechnology
Abstract

Nucleic acid-based therapeutic molecules including small interfering RNA (siRNA), microRNA(miRNA), antisense oligonucleotides (ASOs), messenger RNA (mRNA), and DNA-based gene therapy have tremendous potential for treating diseases in the central nervous system (CNS). However, achieving clinically meaningful delivery to the brain and particularly to target cells and sub-cellular compartments is typically very challenging. Mediating cell-specific delivery in the CNS would be a crucial advance that mitigates off-target effects and toxicities. In this review, we describe these challenges and provide contemporary evidence of advances in cellular and sub-cellular delivery using a variety of delivery mechanisms and alternative routes of administration, including the nose-to-brain approach. Strategies to achieve subcellular localization, endosomal escape, cytosolic bioavailability, and nuclear transfer are also discussed. Ultimately, there are still many challenges to translating these experimental strategies into effective and clinically viable approaches for treating patients.

Published
2022

16. Short-term Exposure to JUUL Electronic Cigarettes Can Worsen Ischemic Stroke Outcome by Disrupting the Blood-Brain Barrier

Author

Ali Ehsan Sifat, Sabrina Rahman Archie, Saeideh Nozohouri, Heidi Villalba, Yashwardhan Ghanwatkar, Sejal Sharma, Yong Zhang, Bhuvaneshwar Vaidya, Luca Cucullo, and Thomas J. Abbruscato

Abstract

Background The short and long-term health effects of JUUL electronic cigarette (e-Cig) are largely unknown and warrant extensive research. We hypothesized that chronic exposure to JUUL vapor could promote cerebrovascular toxicities impacting the progression and outcome of ischemic stroke to an extent comparable to that resulting from tobacco smoke (TS) exposure. Methods We exposed male C57 mice to TS/ JUUL vapor for 14 days. LCMS/MS was used to measure brain and plasma nicotine and cotinine level. Transient middle cerebral artery occlusion (tMCAO) followed by reperfusion was used to mimic ischemic stroke. Plasma levels of IL-6 and thrombomodulin were assessed by enzyme-linked immunosorbent assay. At the same time, western blotting was used to study blood-brain barrier (BBB) tight junction (TJ) proteins expression and that of key inflammatory and oxidative stress markers. Results tMCAO upregulated IL-6 and decreased plasma thrombomodulin levels. Post-ischemic brain injury following tMCAO was significantly worsened by JUUL/TS pre-exposure. TJ proteins expression was also downregulated by JUUL/TS pre-exposure after tMCAO. Similar to TS, exposure to JUUL downregulated the expression of the antioxidant Nrf2. The inflammatory marker ICAM-1 was also significantly upregulated by TS pre-exposure following tMCAO and by JUUL but to a lesser extent. Conclusions Our results suggest that JUUL exposure could negatively impact the cerebrovascular system as much as TS exposure.

Published
2022

18. Structure-Activity Relationship Studies of Functionalized Aromatic Peptidomimetics as Neurolysin Activators

Author

Md. Shafikur Rahman, Shiva Hadi Esfahani, Saeideh Nozohouri, Shikha Kumari, Joanna Kocot, Yong Zhang, Thomas J. Abbruscato, Vardan T. Karamyan, and Paul C. Trippier

Subjects
Structure-Activity Relationship, Organic Chemistry, Clinical Biochemistry, Drug Discovery, Pharmaceutical Science, Molecular Medicine, Metalloendopeptidases, Peptidomimetics, Molecular Biology, Biochemistry, Article, Peptide Hydrolases
Abstract

Modulating peptidase neurolysin (Nln) has been identified as a potential cerebroprotective target for the development of therapeutics for ischemic stroke. Continued structure-activity relationship studies on peptidomimetic small molecule activators of Nln bearing electron-donating and electron-withdrawing functionalized phenyls are explored. Incorporation of fluorine or trifluoromethyl groups produces Nln activators with enhanced A(50), while methoxy substitution produces derivatives with enhanced A(max). Selected activators containing methoxy or trifluoromethyl substitution are selective for Nln over related peptidases and possess increased blood-brain barrier penetrability than initial hits.

Published
2022

19. Novel approaches for the delivery of therapeutics in ischemic stroke

Author

Thomas J. Abbruscato, Ali Ehsan Sifat, Bhuvaneshwar Vaidya, and Saeideh Nozohouri

Subjects
0301 basic medicine, medicine.medical_specialty, Ischemic brain injury, Article, Brain Ischemia, 03 medical and health sciences, Drug Delivery Systems, 0302 clinical medicine, Neuroprotective Drugs, Internal medicine, Drug Discovery, medicine, Animals, Humans, Tissue Distribution, Drug Approval, Stroke, Ischemic Stroke, Thrombectomy, Pharmacology, business.industry, Extramural, medicine.disease, Neuroprotective Agents, 030104 developmental biology, Blood-Brain Barrier, 030220 oncology & carcinogenesis, Ischemic stroke, Cardiology, business
Abstract

Here, we review novel approaches to deliver neuroprotective drugs to salvageable penumbral brain areas of stroke injury with the goals of offsetting ischemic brain injury and enhancing recovery.

Published
2020

20. Prenatal electronic cigarette exposure decreases brain glucose utilization and worsens outcome in offspring hypoxic–ischemic brain injury

Author

Vardan T. Karamyan, Ali Ehsan Sifat, Heidi Villalba, Abdullah Al Shoyaib, Thomas J. Abbruscato, Saeideh Nozohouri, and Bhuvaneshwar Vaidya

Subjects
Male, 0301 basic medicine, Nicotine, medicine.medical_specialty, Offspring, Population, Morris water navigation task, Electronic Nicotine Delivery Systems, Biochemistry, Open field, Mice, 03 medical and health sciences, Cellular and Molecular Neuroscience, Cognition, 0302 clinical medicine, Pregnancy, Internal medicine, medicine, Animals, education, Maternal-Fetal Exchange, Cells, Cultured, Brain Chemistry, Cerebral Cortex, Neurons, Glucose Transporter Type 1, Fetus, education.field_of_study, business.industry, Glucose transporter, Brain, Prognosis, Motor coordination, Oxygen, Glucose, 030104 developmental biology, Endocrinology, Animals, Newborn, Prenatal Exposure Delayed Effects, Hypoxia-Ischemia, Brain, Female, business, 030217 neurology & neurosurgery, medicine.drug
Abstract

It has been shown that prenatal nicotine and tobacco smoke exposure can cause different neurobehavioral disorders in the offspring. We hypothesize that prenatal exposure to nicotine-containing electronic cigarette (e-Cig) vapor can predispose newborn to enhanced sensitivity to hypoxic-ischemic (HI) brain injury and impaired motor and cognitive functions. In this study, pregnant CD1 mice were exposed to e-Cig vapor (2.4% nicotine). Primary cortical neurons isolated from e-Cig exposed fetus were exposed to oxygen-glucose deprivation followed by reoxygenation (OGD/R) to mimic HI brain injury. Cell viability and glucose utilization were analyzed in these neurons. HI brain injury was induced in 8-9-day-old pups. Short-term brain injury was evaluated by triphenyltetrazolium chloride staining. Long-term motor and cognitive functions were evaluated by open field, novel object recognition, Morris water maze, and foot fault tests. Western blotting and immunofluorescence were done to characterize glucose transporters in offspring brain. We found that e-Cig exposed neurons demonstrated decreased cell viability and glucose utilization in OGD/R. Prenatally e-Cig exposed pups also had increased brain injury and edema 24 hr after HI brain injury. Further, in utero e-Cig exposed offspring with HI brain injury displayed impaired memory, learning, and motor coordination at adolescence. Additionally, the expression of glucose transporters decreased in e-Cig exposed offspring brain after HI brain injury. These results indicate that reduced glucose utilization can contribute to prenatal e-Cig exposure induced worsened HI brain injury in offspring. This study is instrumental in elucidating the possible deleterious effects of e-Cig use in the general population.

Published
2020

21. Potential role of astrocyte angiotensin converting enzyme 2 in the neural transmission of COVID-19 and a neuroinflammatory state induced by smoking and vaping

Author

Yong Zhang, Sabrina Rahman Archie, Yashwardhan Ghanwatkar, Sejal Sharma, Saeideh Nozohouri, Elizabeth Burks, Alexander Mdzinarishvili, Zijuan Liu, and Thomas J. Abbruscato

Subjects
SARS-CoV-2, Vaping, Smoking, COVID-19, Endothelial Cells, General Medicine, Synaptic Transmission, Cellular and Molecular Neuroscience, Mice, Developmental Neuroscience, Neurology, Astrocytes, Tobacco Smoking, Animals, Humans, Angiotensin-Converting Enzyme 2
Abstract

Background Knowledge of the entry receptors responsible for SARS-CoV-2 is key to understand the neural transmission and pathogenesis of COVID-19 characterized by a neuroinflammatory scenario. Understanding the brain distribution of angiotensin converting enzyme 2 (ACE2), the primary entry receptor for SARS-CoV-2, remains mixed. Smoking has been shown as a risk factor for COVID-19 severity and it is not clear how smoking exacerbates the neural pathogenesis in smokers. Methods Immunohistochemistry, real-time PCR and western blot assays were used to systemically examine the spatial-, cell type- and isoform-specific expression of ACE2 in mouse brain and primary cultured brain cells. Experimental smoking exposure was conducted to evaluate the effect of smoking on brain expression. Results We observed ubiquitous expression of ACE2 but uneven brain distribution, with high expression in the cerebral microvasculature, medulla oblongata, hypothalamus, subventricular zones, and meninges around medulla oblongata and hypothalamus. Co-staining with cell type-specific markers demonstrates ACE2 is primarily expressed in astrocytes around the microvasculature, medulla oblongata, hypothalamus, ventricular and subventricular zones of cerebral ventricles, and subependymal zones in rhinoceles and rostral migratory streams, radial glial cells in the lateral ventricular zones, tanycytes in the third ventricle, epithelial cells and stroma in the cerebral choroid plexus, as well as cerebral pericytes, but rarely detected in neurons and cerebral endothelial cells. ACE2 expression in astrocytes is further confirmed in primary cultured cells. Furthermore, isoform-specific analysis shows astrocyte ACE2 has the peptidase domain responsible for SARS-CoV-2 entry, indicating astrocytes are indeed vulnerable to SARS-CoV-2 infection. Finally, our data show experimental tobacco smoking and electronic nicotine vaping exposure increase proinflammatory and/or immunomodulatory cytokine IL-1a, IL-6 and IL-5 without significantly affecting ACE2 expression in the brain, suggesting smoking may pre-condition a neuroinflammatory state in the brain. Conclusions The present study demonstrates a spatial- and cell type-specific expression of ACE2 in the brain, which might help to understand the acute and lasting post-infection neuropsychological manifestations in COVID-19 patients. Our data highlights a potential role of astrocyte ACE2 in the neural transmission and pathogenesis of COVID-19. This also suggests a pre-conditioned neuroinflammatory and immunocompromised scenario might attribute to exacerbated COVID-19 severity in the smokers.

Published
2021

22. In-Vivo and Ex-Vivo Brain Uptake Studies of Peptidomimetic Neurolysin Activators in Healthy and Stroke Animals

Author

Saeideh Nozohouri, Shiva Hadi Esfahani, Behnam Noorani, Dhaval Patel, Heidi Villalba, Yashwardhan Ghanwatkar, Md. Shafikur Rahman, Yong Zhang, Ulrich Bickel, Paul C. Trippier, Vardan T. Karamyan, and Thomas J. Abbruscato

Subjects
Pharmacology, Organic Chemistry, Pharmaceutical Science, Brain, Metalloendopeptidases, Article, Stroke, Mice, Blood-Brain Barrier, Molecular Medicine, Animals, Pharmacology (medical), Peptidomimetics, Biotechnology, Ischemic Stroke
Abstract

PURPOSE: Neurolysin (Nln) is a peptidase that functions to preserve the brain following ischemic stroke by hydrolyzing various neuropeptides. Nln activation has emerged as an attractive drug discovery target for treatment of ischemic stroke. Among first-in-class peptidomimetic Nln activators, we selected three lead compounds (9d, 10c, 11a) for quantitative pharmacokinetic analysis to provide valuable information for subsequent preclinical development. METHODS: Pharmacokinetic profile of these compounds was studied in healthy and ischemic stroke-induced mice after bolus intravenous administration. Brain concentration and brain uptake clearance (K(in)) was calculated from single time point analysis. The inter-relationship between LogP with in-vitro and in-vivo permeability was studied to determine CNS penetration. Brain slice uptake method was used to study tissue binding, whereas P-gp-mediated transport was evaluated to understand the potential brain efflux of these compounds. RESULTS: According to calculated parameters, all three compounds showed a detectable amount in the brain after intravenous administration at 4 mg/kg; however, 11a had the highest brain concentration and brain uptake clearance. A strong correlation was documented between in-vitro and in-vivo permeability data. The efflux ratio of 10c was ~6-fold higher compared to 11a and correlated well with its lower K(in) value. In experimental stroke animals, the K(in) of 11a was significantly higher in ischemic vs. contralateral and intact hemispheres, though it remained below its A(50) value required to activate Nln. CONCLUSIONS: Collectively, these preclinical pharmacokinetic studies reveal promising BBB permeability of 11a and indicate that it can serve as an excellent lead for developing improved drug-like Nln activators.

Published
2021

23. Discovery of First-in-Class Peptidomimetic Neurolysin Activators Possessing Enhanced Brain Penetration and Stability

Author

Joanna Kocot, Thomas J. Abbruscato, Delaney Farris, Shafikur Rahman, Paul C. Trippier, Shiva Hadi Esfahani, Vardan T. Karamyan, Srinidhi Jayaraman, Andrew Baez, Saeideh Nozohouri, Shikha Kumari, and Nihar Kinarivala

Subjects
chemistry.chemical_classification, Dipeptide, Molecular Structure, Drug discovery, Peptidomimetic, Protein Conformation, Neuropeptide, Brain, Metalloendopeptidases, Endogeny, Pharmacology, Article, Enzyme Activation, chemistry.chemical_compound, Structure-Activity Relationship, Enzyme, chemistry, Downregulation and upregulation, Gene Expression Regulation, Drug Discovery, Molecular Medicine, Peptidomimetics, Histidine
Abstract

Peptidase neurolysin (Nln) is an enzyme that functions to cleave various neuropeptides. Upregulation of Nln after stroke has identified the enzyme as a critical endogenous cerebroprotective mechanism and validated target for the treatment of ischemic stroke. Overexpression of Nln in a mouse model of stroke results in dramatic improvement of stroke outcomes, while pharmacological inhibition aggravates them. Activation of Nln has therefore emerged as an intriguing target for drug discovery efforts for ischemic stroke. Herein, we report the discovery and hit-to-lead optimization of first-in-class Nln activators based on histidine-containing dipeptide hits identified from a virtual screen. Adopting a peptidomimetic approach provided lead compounds that retain the pharmacophoric histidine moiety and possess single-digit micromolar potency over 40-fold greater than the hit scaffolds. These compounds exhibit 5-fold increased brain penetration, significant selectivity over highly homologous peptidases, greater than 65-fold increase in mouse brain stability, and 'drug-like' fraction unbound in the brain.

Published
2021

24. The Role of Smoking and Nicotine in the Transmission and Pathogenesis of COVID-19

Author

Bhuvaneshwar Vaidya, Thomas J. Abbruscato, Saeideh Nozohouri, Heidi Villalba, and Ali Ehsan Sifat

Subjects
0301 basic medicine, Nicotine, medicine.medical_specialty, Coronavirus disease 2019 (COVID-19), Disease, Bioinformatics, Virus, Pathogenesis, 03 medical and health sciences, 0302 clinical medicine, Epidemiology, Pandemic, Animals, Humans, Medicine, Lung, Pharmacology, SARS-CoV-2, business.industry, Transmission (medicine), Smoking, Brain, COVID-19, 030104 developmental biology, Molecular Medicine, Angiotensin-Converting Enzyme 2, Minireview, business, 030217 neurology & neurosurgery, medicine.drug
Abstract

Coronavirus disease 2019 (COVID-19), caused by the severe acute respiratory syndrome coronavirus 2 virus, is turning out to be one of the most devastating global pandemics in the history of humankind. There is a shortage of effective therapeutic strategies or preventative vaccines for this disease to date. A rigorous investigation is needed for identifying and developing more effective therapeutic strategies for COVID-19. Angiotensin-converting enzyme 2 (ACE2), a crucial factor in COVID-19 pathogenesis, has been identified as a potential target for COVID-19 treatment. Smoking and vaping are potential risk factors for COVID-19 that are also shown to upregulate ACE2 expression. In this review, we have discussed the pathobiology of COVID-19 in the lungs and brain and the role of ACE2 in the transmission and pathobiology of this disease. Furthermore, we have shown possible interactions between nicotine/smoking and ACE2 in the lungs and brain, which could aggravate the transmission and pathobiology of COVID-19, resulting in a poor disease outcome. SIGNIFICANCE STATEMENT: This review addresses the present global pandemic of coronavirus disease 2019 (COVID-19) with respect to its pathobiology in the lungs and brain. It focuses on the potential negative impact of tobacco and nicotine exposure on the outcomes of this disease by interaction with the angiotensin-converting enzyme 2 receptor. It adds to the time-sensitive and critically important growing knowledge about the risk factors, transmission, pathobiology, and prognosis of COVID-19.

Published
2020
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25. Estimating Brain Permeability Using In Vitro Blood-Brain Barrier Models

Author

Saeideh, Nozohouri, Behnam, Noorani, Abraham, Al-Ahmad, and Thomas J, Abbruscato

Subjects
Blood-Brain Barrier, Astrocytes, Brain, Endothelial Cells, Models, Biological, Cells, Cultured, Coculture Techniques, Permeability
Abstract

The blood-brain barrier (BBB) is a vital biological interface that regulates transfer of different molecules between blood and brain and, therefore, maintains the homeostatic environment of the CNS. In order to perform high-throughput screening of therapeutics in drug discovery, specific properties of the BBB are investigated within in vitro BBB platforms. In this chapter, we detail the process and steps for the iPSC to BMEC and astrocyte differentiation as well as TEER and permeability measurement in Transwell platform of in vitro BBB model. Also, advanced microfluidic iPSCs-derived BMECs on chip and permeability measurement within this model have been elucidated.

Published
2020

26. Exosomes in Ischemic Stroke

Author

Bhuvaneshwar Vaidya, Thomas J. Abbruscato, and Saeideh Nozohouri

Subjects
Angiogenesis, Bioinformatics, Exosomes, 01 natural sciences, Exosome, Brain Ischemia, 03 medical and health sciences, Drug Discovery, Medicine, Humans, Stroke, 030304 developmental biology, Ischemic Stroke, Pharmacology, 0303 health sciences, Drug Carriers, business.industry, Biocompatible material, medicine.disease, Microvesicles, 0104 chemical sciences, 010404 medicinal & biomolecular chemistry, Drug delivery, Ischemic stroke, business
Abstract

Ischemic stroke, a leading cause of mortality, results in severe neurological outcomes in the patients. Effective stroke therapies may significantly decrease the extent of injury. For this purpose, novel and efficient drug delivery strategies need to be developed. Among a myriad of therapeutic and drug delivery techniques, exosomes have shown promising results in ischemic stroke either by their intrinsic therapeutic characteristics, which can result in angiogenesis and neurogenesis or by acting as competent, biocompatible drug delivery vehicles to transport neurotherapeutic agents into the brain. In this review, we have discussed different methods of exosome isolation and cargo loading techniques, advantages and disadvantages of using exosomes as a drug delivery carrier and the therapeutic applications of exosomes with a focus on ischemic stroke therapy.

Published
2020

27. Estimating Brain Permeability Using In Vitro Blood-Brain Barrier Models

Author

Abraham Al-Ahmad, Behnam Noorani, Saeideh Nozohouri, and Thomas J. Abbruscato

Subjects
0301 basic medicine, Drug discovery, Chemistry, Blood–brain barrier, In vitro, 03 medical and health sciences, Astrocyte differentiation, 030104 developmental biology, 0302 clinical medicine, medicine.anatomical_structure, cardiovascular system, medicine, Biophysics, 030217 neurology & neurosurgery
Abstract

The blood-brain barrier (BBB) is a vital biological interface that regulates transfer of different molecules between blood and brain and, therefore, maintains the homeostatic environment of the CNS. In order to perform high-throughput screening of therapeutics in drug discovery, specific properties of the BBB are investigated within in vitro BBB platforms. In this chapter, we detail the process and steps for the iPSC to BMEC and astrocyte differentiation as well as TEER and permeability measurement in Transwell platform of in vitro BBB model. Also, advanced microfluidic iPSCs-derived BMECs on chip and permeability measurement within this model have been elucidated.

Published
2020

29. Repurposing metformin to treat age-related neurodegenerative disorders and ischemic stroke

Author

Thomas J. Abbruscato, Sejal Sharma, Bhuvaneshwar Vaidya, and Saeideh Nozohouri

Subjects
0301 basic medicine, Drug, Aging, media_common.quotation_subject, Central nervous system, Bioinformatics, 030226 pharmacology & pharmacy, Article, General Biochemistry, Genetics and Molecular Biology, Brain Ischemia, 03 medical and health sciences, 0302 clinical medicine, Diabetes mellitus, medicine, Animals, Humans, Hypoglycemic Agents, General Pharmacology, Toxicology and Pharmaceutics, Risk factor, Repurposing, media_common, business.industry, Drug Repositioning, Cerebrovascular disorder, Neurodegenerative Diseases, General Medicine, medicine.disease, Metformin, Stroke, 030104 developmental biology, medicine.anatomical_structure, Ischemic stroke, business, medicine.drug
Abstract

Aging is a risk factor for major central nervous system (CNS) disorders. More specifically, aging can be inked to neurodegenerative diseases (NDs) because of its deteriorating impact on neurovascular unit (NVU). Metformin, a first line FDA-approved anti-diabetic drug, has gained increasing interest among researchers for its role in improving aging-related neurodegenerative disorders. Additionally, numerous studies have illustrated metformin’s role in ischemic stroke, a cerebrovascular disorder in which the NVU becomes dysfunctional which can lead to permanent life-threatening disabilities. Considering metformin’s beneficial preclinical actions on various disorders, and the drug’s role in alleviating severity of these conditions through involvement in commonly characterized cellular pathways, we discuss the potential of metformin as a suitable drug candidate for repurposing in CNS disorders.

Published
2021

30. Anti‐edematous effect of neurolysin in ischemic stroke

Author

Vardan T. Karamyan, Bhuvan Vaidya, Srinidhi Jayaraman, Saeideh Nozohouri, and Thomas J. Abbruscato

Subjects
medicine.medical_specialty, business.industry, Internal medicine, Neurolysin, Ischemic stroke, Genetics, Cardiology, medicine, business, Molecular Biology, Biochemistry, Biotechnology
Published
2019

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