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4. Sulfonylurea Receptor 1 in Central Nervous System Injury: An Updated Review

Author

Jha, R, Rani, A, Desai, S, Raikwar, S, Mihaljevic, S, Munoz-Casabella, A, Kochanek, P, Catapano, J, Winkler, E, Citerio, G, Hemphill, J, Kimberly, W, Narayan, R, Sahuquillo, J, Sheth, K, Simard, J, Jha, Ruchira M., Rani, Anupama, Desai, Shashvat M., Raikwar, Sudhanshu, Mihaljevic, Sandra, Munoz-Casabella, Amanda, Kochanek, Patrick M., Catapano, Joshua, Winkler, Ethan, Citerio, Giuseppe, Hemphill, J. Claude, Kimberly, W. Taylor, Narayan, Raj, Sahuquillo, Juan, Sheth, Kevin N., Simard, J. Marc, Jha, R, Rani, A, Desai, S, Raikwar, S, Mihaljevic, S, Munoz-Casabella, A, Kochanek, P, Catapano, J, Winkler, E, Citerio, G, Hemphill, J, Kimberly, W, Narayan, R, Sahuquillo, J, Sheth, K, Simard, J, Jha, Ruchira M., Rani, Anupama, Desai, Shashvat M., Raikwar, Sudhanshu, Mihaljevic, Sandra, Munoz-Casabella, Amanda, Kochanek, Patrick M., Catapano, Joshua, Winkler, Ethan, Citerio, Giuseppe, Hemphill, J. Claude, Kimberly, W. Taylor, Narayan, Raj, Sahuquillo, Juan, Sheth, Kevin N., and Simard, J. Marc

Abstract

Sulfonylurea receptor 1 (SUR1) is a member of the adenosine triphosphate (ATP)-binding cassette (ABC) protein superfamily, encoded by Abcc8, and is recognized as a key mediator of central nervous system (CNS) cellular swelling via the transient receptor potential melastatin 4 (TRPM4) channel. Discovered approximately 20 years ago, this channel is normally absent in the CNS but is transcriptionally upregulated after CNS injury. A comprehensive review on the pathophysiology and role of SUR1 in the CNS was published in 2012. Since then, the breadth and depth of understanding of the involvement of this channel in secondary injury has undergone exponential growth: SUR1-TRPM4 inhibition has been shown to decrease cerebral edema and hemorrhage progression in multiple preclinical models as well as in early clinical studies across a range of CNS diseases including ischemic stroke, traumatic brain injury, cardiac arrest, subarachnoid hemorrhage, spinal cord injury, intracerebral hemorrhage, multiple sclerosis, encephalitis, neuromalignancies, pain, liver failure, status epilepticus, retinopathies and HIV-associated neurocognitive disorder. Given these substantial developments, combined with the timeliness of ongoing clinical trials of SUR1 inhibition, now, another decade later, we review advances pertaining to SUR1-TRPM4 pathobiology in this spectrum of CNS disease-providing an overview of the journey from patchclamp experiments to phase III trials.

Published
2021

9. Sulfonylurea Receptor 1 in Central Nervous System Injury: An Updated Review

Author

Sandra Mihaljevic, Juan Sahuquillo, Raj K. Narayan, Anupama Rani, Shashvat M. Desai, W. Taylor Kimberly, Sudhanshu P. Raikwar, J. Claude Hemphill, Patrick M. Kochanek, Joshua S Catapano, Ruchira M. Jha, Giuseppe Citerio, J. Marc Simard, Ethan Winkler, Kevin N. Sheth, Amanda Munoz-Casabella, Institut Català de la Salut, [Jha RM] Department of Neurology, Barrow Neurological Institute and St. Joseph’s Hospital and Medical Center, Phoenix, AZ 85013, USA. Department of Translational Neuroscience, Barrow Neurological Institute and St. Joseph’s Hospital and Medical Center, Phoenix, AZ 85013, USA. Department of Neurosurgery, Barrow Neurological Institute and St. Joseph’s Hospital and Medical Center, Phoenix, AZ 85013, USA. [Rani A, Raikwar S, Mihaljevic S, Munoz-Casabella A] Department of Translational Neuroscience, Barrow Neurological Institute and St. Joseph’s Hospital and Medical Center, Phoenix, AZ 85013, USA. [Desai SM] Department of Neurology, Barrow Neurological Institute and St. Joseph’s Hospital and Medical Center, Phoenix, AZ 85013, USA. [Sahuquillo J] Unitat de Recerca en Neurotraumatologia i Neurocirurgia (UNINN), Vall d’Hebron Institut de Recerca (VHIR), Barcelona, Spain. Unitat de Recerca en Neurotraumatologia i Neurocirurgia, Universitat Autònoma de Barcelona, Bellaterra, Spain. Servei de Neurocirurgia, Vall d’Hebron Hospital Universitari, Barcelona, Spain, Vall d'Hebron Barcelona Hospital Campus, Jha, R, Rani, A, Desai, S, Raikwar, S, Mihaljevic, S, Munoz-Casabella, A, Kochanek, P, Catapano, J, Winkler, E, Citerio, G, Hemphill, J, Kimberly, W, Narayan, R, Sahuquillo, J, Sheth, K, and Simard, J

Subjects
Sistema nerviós central - Malalties, Review, enfermedades del sistema nervioso::enfermedades del sistema nervioso central [ENFERMEDADES], Sulfonylurea Receptors, Bioinformatics, Central Nervous System Diseases, Biology (General), Stroke, Spinal cord injury, Spectroscopy, Otros calificadores::Otros calificadores::/metabolismo [Otros calificadores], Amino Acids, Peptides, and Proteins::Proteins::Carrier Proteins::Membrane Transport Proteins::Ion Channels::Potassium Channels::Potassium Channels, Inwardly Rectifying::KATP Channels::Sulfonylurea Receptors [CHEMICALS AND DRUGS], traumatic brain injury, Other subheadings::Other subheadings::/metabolism [Other subheadings], General Medicine, stroke, Computer Science Applications, Clinical trial, Chemistry, medicine.anatomical_structure, aminoácidos, péptidos y proteínas::proteínas::proteínas transportadoras::proteínas de transporte de membrana::canales iónicos::canales del potasio::canales del potasio de correción hacia el interior::canales KATP::receptores de sulfonilureas [COMPUESTOS QUÍMICOS Y DROGAS], Subarachnoid hemorrhage, Traumatic brain injury, TRPM4, QH301-705.5, Central nervous system, Nervous System Diseases::Central Nervous System Diseases [DISEASES], Catalysis, Inorganic Chemistry, sulfonylurea receptor, medicine, Animals, Humans, Physical and Theoretical Chemistry, Molecular Biology, QD1-999, Canals de potassi - Metabolisme, Intracerebral hemorrhage, clinical trials, business.industry, Multiple sclerosis, Organic Chemistry, medicine.disease, Brain Injuries, Sulfonylurea receptor, cellular swelling, business, edema, SUR 1
Abstract

Hinchazón celular; Edema; Traumatismo cerebral Cellular swelling; Edema; Traumatic brain injury Inflor cel·lular; Edema; Traumatisme cerebral Sulfonylurea receptor 1 (SUR1) is a member of the adenosine triphosphate (ATP)-binding cassette (ABC) protein superfamily, encoded by Abcc8, and is recognized as a key mediator of central nervous system (CNS) cellular swelling via the transient receptor potential melastatin 4 (TRPM4) channel. Discovered approximately 20 years ago, this channel is normally absent in the CNS but is transcriptionally upregulated after CNS injury. A comprehensive review on the pathophysiology and role of SUR1 in the CNS was published in 2012. Since then, the breadth and depth of understanding of the involvement of this channel in secondary injury has undergone exponential growth: SUR1-TRPM4 inhibition has been shown to decrease cerebral edema and hemorrhage progression in multiple preclinical models as well as in early clinical studies across a range of CNS diseases including ischemic stroke, traumatic brain injury, cardiac arrest, subarachnoid hemorrhage, spinal cord injury, intracerebral hemorrhage, multiple sclerosis, encephalitis, neuromalignancies, pain, liver failure, status epilepticus, retinopathies and HIV-associated neurocognitive disorder. Given these substantial developments, combined with the timeliness of ongoing clinical trials of SUR1 inhibition, now, another decade later, we review advances pertaining to SUR1-TRPM4 pathobiology in this spectrum of CNS disease—providing an overview of the journey from patch-clamp experiments to phase III trials. No funding directly supported the writing of this review. R.M.J. is supported by grants from the National Institute of Neurological Disorders and Stroke (NINDS) (K23NS101036; R01NS115815), and the Barrow Neurological Foundation. J.M.S. is supported by grants from the Department of Veterans Affairs (I01RX003060; 1I01BX004652), the Department of Defense (SC170199), the National Heart, Lung and Blood Institute (R01HL082517) and the NINDS (R01NS102589; R01NS105633).

Published
2021

11. Emerging Combinatorial Drug Delivery Strategies for Breast Cancer: A Comprehensive Review.

Author

Singhai H, Raikwar S, Rathee S, and Jain SK

Abstract

Breast cancer remains the second most prevalent cancer among women in the United States. Despite advancements in surgical, radiological, and chemotherapeutic techniques, multidrug resistance continues to pose significant challenges in effective treatment. Combination chemotherapy has emerged as a promising approach to address these limitations, allowing multiple drugs to target malignancies via distinct mechanisms of action. Increasingly, the use of phytoconstituents alongside chemotherapeutic agents has shown promise in enhancing treatment outcomes. This combination therapy acts on key signaling pathways such as Hedgehog, Notch, Wnt/β- catenin, tyrosine kinases, and phosphatidylinositol 3-kinase (PI3K), which play critical roles in cellular proliferation, apoptosis, angiogenesis, differentiation, invasion, and metastasis. This review explores various signaling pathways involved in breast cancer progression, discusses conventional treatment methods like surgery, adjuvant radiotherapy, hormonal therapy, and chemotherapy, and highlights emerging nanocarrier-based drug delivery systems (DDS). Liposomes, dendrimers, exosomes, polymeric micelles, and nanoparticles (organic, inorganic, gold, magnetic, carbon-based, and quantum dots) are examined as innovative strategies for enhancing drug delivery efficacy. Furthermore, stimuli-responsive DDSs, including reactive oxygen species (ROS), enzyme-, and hypoxia- responsive systems, are presented as cutting-edge approaches to overcoming drug resistance. Special emphasis is placed on the co-delivery of chemotherapeutic agents and plant-based compounds, particularly in estrogen receptor-positive (ER+) breast cancer. This review aims to provide a comprehensive overview of novel combinatorial strategies and advanced nanocarriers for the effective and targeted treatment of breast cancer., (Copyright© Bentham Science Publishers; For any queries, please email at epub@benthamscience.net.)

Published
2025
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12. A single-cell atlas deconstructs heterogeneity across multiple models in murine traumatic brain injury and identifies novel cell-specific targets.

Author

Jha RM, Rajasundaram D, Sneiderman C, Schlegel BT, O'Brien C, Xiong Z, Janesko-Feldman K, Trivedi R, Vagni V, Zusman BE, Catapano JS, Eberle A, Desai SM, Jadhav AP, Mihaljevic S, Miller M, Raikwar S, Rani A, Rulney J, Shahjouie S, Raphael I, Kumar A, Phuah CL, Winkler EA, Simon DW, Kochanek PM, and Kohanbash G

Subjects
Animals, Mice, Female, Male, Single-Cell Analysis, Mice, Inbred C57BL, Transcriptome, Atlases as Topic, Brain metabolism, Brain pathology, Sex Characteristics, Brain Injuries, Traumatic pathology, Brain Injuries, Traumatic metabolism, Microglia metabolism, Microglia pathology, Disease Models, Animal
Abstract

Traumatic brain injury (TBI) heterogeneity remains a critical barrier to translating therapies. Identifying final common pathways/molecular signatures that integrate this heterogeneity informs biomarker and therapeutic-target development. We present the first large-scale murine single-cell atlas of the transcriptomic response to TBI (334,376 cells) across clinically relevant models, sex, brain region, and time as a foundational step in molecularly deconstructing TBI heterogeneity. Results were unique to cell populations, injury models, sex, brain regions, and time, highlighting the importance of cell-level resolution. We identify cell-specific targets and previously unrecognized roles for microglial and ependymal subtypes. Ependymal-4 was a hub of neuroinflammatory signaling. A distinct microglial lineage shared features with disease-associated microglia at 24 h, with persistent gene-expression changes in microglia-4 even 6 months after contusional TBI, contrasting all other cell types that mostly returned to naive levels. Regional and sexual dimorphism were noted. CEREBRI, our searchable atlas (https://shiny.crc.pitt.edu/cerebri/), identifies previously unrecognized cell subtypes/molecular targets and is a leverageable platform for future efforts in TBI and other diseases with overlapping pathophysiology., Competing Interests: Declaration of interests The authors declare no competing interests., (Copyright © 2024 The Authors. Published by Elsevier Inc. All rights reserved.)

Published
2024
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13. Recent Update on Nanocarrier(s) as the Targeted Therapy for Breast Cancer.

Author

Mukherjee D and Raikwar S

Subjects
Humans, Female, Drug Delivery Systems methods, Animals, Drug Liberation, Nanotechnology methods, Breast Neoplasms drug therapy, Drug Carriers chemistry, Antineoplastic Agents administration & dosage, Nanoparticles chemistry
Abstract

Despite ongoing advances in cancer therapy, the results for the treatment of breast cancer are not satisfactory. The advent of nanotechnology promises to be an essential tool to improve drug delivery effectiveness in cancer therapy. Nanotechnology provides an opportunity to enhance the treatment modality by preventing degradation, improving tumour targeting, and controlling drug release. Recent advances have revealed several strategies to prevent cancer metastasis using nano-drug delivery systems (NDDS). These strategies include the design of appropriate nanocarriers loaded with anti-cancer drugs that target the optimization of physicochemical properties, modulate the tumour microenvironment, and target biomimetic techniques. Nanocarriers have emerged as a preferential approach in the chemotropic treatment for breast cancer due to their pivotal role in safeguarding the therapeutic agents against degradation. They facilitate efficient drug concentration in targeted cells, surmount the resistance of drugs, and possess a small size. Nevertheless, these nanocarrier(s) have some limitations, such as less permeability across the barrier and low bioavailability of loaded drugs. To overcome these challenges, integrating external stimuli has been employed, encompassing infrared light, thermal stimulation, microwaves, and X-rays. Among these stimuli, ultrasound-triggered nanocarriers have gained significant attention due to their cost-effectiveness, non-invasive nature, specificity, ability to penetrate tissues, and capacity to deliver elevated drug concentrations to intended targets. This article comprehensively reviews recent advancements in different nanocarriers for breast cancer chemotherapy. It also delves into the associated hurdles and offers valuable insights into the prospective directions for this innovative field., (© 2024. The Author(s), under exclusive licence to American Association of Pharmaceutical Scientists.)

Published
2024
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14. Antibody-conjugated pH-sensitive liposomes for HER-2 positive breast cancer: development, characterization, in vitro and in vivo assessment.

Author

Raikwar S, Yadav V, Jain S, and Jain SK

Subjects
Animals, Female, Humans, Mice, Antineoplastic Agents pharmacology, Antineoplastic Agents chemistry, Antineoplastic Agents administration & dosage, Cell Line, Tumor, Cell Proliferation drug effects, Cell Survival drug effects, Drug Liberation, Drug Screening Assays, Antitumor, Hydrogen-Ion Concentration, Mice, Inbred BALB C, Particle Size, Polyethylene Glycols chemistry, Breast Neoplasms drug therapy, Breast Neoplasms pathology, Liposomes chemistry, Paclitaxel pharmacology, Paclitaxel administration & dosage, Paclitaxel chemistry, Receptor, ErbB-2 metabolism, Trastuzumab pharmacology, Trastuzumab chemistry, Trastuzumab administration & dosage
Abstract

The object of the current study was to develop and evaluate trastuzumab-conjugated Paclitaxel (PTX) and Elacridar (ELA)-loaded PEGylated pH-sensitive liposomes (TPPLs) for site-specific delivery of an anticancer drug. In this study, paclitaxel is used as an anticancer drug which promotes microtubules polymerization and arrest cell cycle progression at mitosis and subsequently leading to cell death. The single use of PTX causes multiple drug resistance (MDR) and results failure of the therapy. Hence, the combination of PTX and P-glycoprotein inhibitor (ELA) are used to achieve maximum therapeutic effects of PTX. Moreover, monoclonal antibody (trastuzumab) is used as ligand for the targeting the drug bearing carriers to BC. Thus, trastuzumab anchored pH-sensitive liposomes bearing PTX and ELA were developed using thin film hydration method and Box-Behnken Design (BBD) for optimizing various formulation variables. The optimized liposomes undergo characterization such as vesicle size, PDI, and zeta potential, which were observed to be 122 ± 2.14 nm, 0.224, and -15.5 mV for PEGylated pH-sensitive liposomes (PEG-Ls) and 134 ± 1.88 nm, 0.238, and -13.98 mV for TPPLs, respectively. The results of the in vitro drug release study of both formulations (PEG-Ls and TPPLs) showed enhanced percentage drug release at an acidic pH 5 as compared to drug release at a physiological pH 7.4. Further, the in vitro cytotoxicity studies were performed in the SK-BR-3 and MDA-MB-231 cell lines. The cellular uptake study of FITC-loaded TPPLs in SK-BR-3 cells showed greater uptake than FITC-loaded PEG-Ls, while in MDA-MB-231 cells there was no significant difference in cell uptake between FITC-loaded TPPLs and FITC-loaded PEG-Ls. Hence, it can be concluded that the HER-2 overexpressing cancer cell line (SK-BR-3) was showed better cytotoxicity and cell uptake of TPPLs than the cells that expressed low levels of HER2 (MDA-MB-231). The in vivo tumor regression study, TPPLs showed significantly more tumor burden reduction i.e. up ∼74% as compared to other liposomes after 28 days. Furthermore, the in vivo studies of TPPLs showed a minimal toxicity profile, minimal hemolysis, higher tumor tissue distribution, and superior antitumor efficacy as compared to other formulations. These studies confirmed that TPPLs are a safe and efficacious treatment for breast cancer.

Published
2024
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16. Recent Trends in Nanocarrier-Based Drug Delivery System for Prostate Cancer.

Author

Kumar A, Lunawat AK, Kumar A, Sharma T, Islam MM, Kahlon MS, Mukherjee D, Narang RK, and Raikwar S

Subjects
Male, Humans, Drug Delivery Systems, Kinetics, Solubility, Tumor Microenvironment, Prostatic Neoplasms drug therapy, Nanoparticles
Abstract

Prostate cancer remains a significant global health concern, requiring innovative approaches for improved therapeutic outcomes. In recent years, nanoparticle-based drug delivery systems have emerged as promising strategies to address the limitations of conventional cancer chemotherapy. The key trends include utilizing nanoparticles for enhancing drug delivery to prostate cancer cells. Nanoparticles have some advantages such as improved drug solubility, prolonged circulation time, and targeted delivery of drugs. Encapsulation of chemotherapeutic agents within nanoparticles allows for controlled release kinetics, reducing systemic toxicity while maintaining therapeutic efficacy. Additionally, site-specific accumulation within the prostate tumor microenvironment is made possible by the functionalization of nanocarrier with targeted ligands, improving therapeutic effectiveness. This article highlights the basics of prostate cancer, statistics of prostate cancer, mechanism of multidrug resistance, targeting approach, and different types of nanocarrier used for the treatment of prostate cancer. It also includes the applications of nanocarriers for the treatment of prostate cancer and clinical trial studies to validate the safety and efficacy of the innovative drug delivery systems. The article focused on developing nanocarrier-based drug delivery systems, with the goal of translating these advancements into clinical applications in the future., (© 2024. The Author(s), under exclusive licence to American Association of Pharmaceutical Scientists.)

Published
2024
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17. Exploring modified chitosan-based gene delivery technologies for therapeutic advancements.

Author

Gholap AD, Kapare HS, Pagar S, Kamandar P, Bhowmik D, Vishwakarma N, Raikwar S, Garkal A, Mehta TA, Rojekar S, Hatvate N, and Mohanto S

Subjects
Protons, Gene Transfer Techniques, Genetic Therapy methods, Chitosan chemistry, Nucleic Acids
Abstract

One of the critical steps in gene therapy is the successful delivery of the genes. Immunogenicity and toxicity are major issues for viral gene delivery systems. Thus, non-viral vectors are explored. A cationic polysaccharide like chitosan could be used as a nonviral gene delivery vector owing to its significant interaction with negatively charged nucleic acid and biomembrane, providing effective cellular uptake. However, the native chitosan has issues of targetability, unpacking ability, and solubility along with poor buffer capability, hence requiring modifications for effective use in gene delivery. Modified chitosan has shown that the "proton sponge effect" involved in buffering the endosomal pH results in osmotic swelling owing to the accumulation of a greater amount of proton and chloride along with water. The major challenges include limited exploration of chitosan as a gene carrier, the availability of high-purity chitosan for toxicity reduction, and its immunogenicity. The genetic drugs are in their infancy phase and require further exploration for effective delivery of nucleic acid molecules as FDA-approved marketed formulations soon., Competing Interests: Declaration of competing interest The authors declare no conflict of interest., (Copyright © 2024 Elsevier B.V. All rights reserved.)

Published
2024
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19. Chitosan scaffolds: Expanding horizons in biomedical applications.

Author

Gholap AD, Rojekar S, Kapare HS, Vishwakarma N, Raikwar S, Garkal A, Mehta TA, Jadhav H, Prajapati MK, and Annapure U

Subjects
Tissue Scaffolds chemistry, Biocompatible Materials pharmacology, Biocompatible Materials therapeutic use, Tissue Engineering, Anti-Bacterial Agents pharmacology, Anti-Bacterial Agents therapeutic use, Chitosan chemistry
Abstract

Chitosan, a natural polysaccharide from chitin, shows promise as a biomaterial for various biomedical applications due to its biocompatibility, biodegradability, antibacterial activity, and ease of modification. This review overviews "chitosan scaffolds" use in diverse biomedical applications. It emphasizes chitosan's structural and biological properties and explores fabrication methods like gelation, electrospinning, and 3D printing, which influence scaffold architecture and mechanical properties. The review focuses on chitosan scaffolds in tissue engineering and regenerative medicine, highlighting their role in bone, cartilage, skin, nerve, and vascular tissue regeneration, supporting cell adhesion, proliferation, and differentiation. Investigations into incorporating bioactive compounds, growth factors, and nanoparticles for improved therapeutic effects are discussed. The review also examines chitosan scaffolds in drug delivery systems, leveraging their prolonged release capabilities and ability to encapsulate medicines for targeted and controlled drug delivery. Moreover, it explores chitosan's antibacterial activity and potential for wound healing and infection management in biomedical contexts. Lastly, the review discusses challenges and future objectives, emphasizing the need for improved scaffold design, mechanical qualities, and understanding of interactions with host tissues. In summary, chitosan scaffolds hold significant potential in various biological applications, and this review underscores their promising role in advancing biomedical science., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2023 Elsevier Ltd. All rights reserved.)

Published
2024
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20. Role of Vitamins in Therapeutic and Targeting Approaches for Prostate Cancer: An Overview.

Author

Panda PK, Saraf S, Verma A, Jain A, Bidla PD, Raikwar S, Kumari P, and Jain SK

Subjects
Humans, Male, Signal Transduction drug effects, Apoptosis drug effects, Animals, Cell Proliferation drug effects, Antineoplastic Agents pharmacology, Antineoplastic Agents therapeutic use, Prostatic Neoplasms drug therapy, Prostatic Neoplasms metabolism, Prostatic Neoplasms pathology, Vitamins therapeutic use, Vitamins pharmacology
Abstract

Vitamins play a crucial role in cellular functions like cell cycling and proliferation, differentiation, and apoptosis. These also help in the induction of cell cycle arrest and/or apoptosis. They can inhibit normal prostatic epithelial cell growth and might be helpful for the prevention of prostate cancer (PCa). Many essential vitamins including the fat-soluble vitamins (vitamin A, vitamin D, vitamin E, and vitamin K) and the water-soluble vitamins (vitamin B complexes and vitamin C) have a huge impact on the inhibition of growth and progression of PCa. Vitamins show anticancer properties and are involved in regulatory processes like the DNA repairing process, which inhibit the growth of PCa. Consumption of multivitamins prevents methylation of cancer cells and possesses an enormous potential that can be applied for the prevention as well as in the management of PCa. They have a great role in the inhibition of different signalling pathways involved in PCa. Moreover, they have also displayed a significant role in targeting of PCa with various nanocarrier systems. This review encompasses the recent studies about the individual actions of different vitamins and vitamin analogs, the combination of vitamins, and their efficient functions in various therapeutic and targeting approaches for PCa., (Copyright© Bentham Science Publishers; For any queries, please email at epub@benthamscience.net.)

Published
2024
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22. Enhancement of Oral Bioavailability of Protein and Peptide by Polysaccharide-based Nanoparticles.

Author

Islam MM and Raikwar S

Subjects
Administration, Oral, Humans, Proteins chemistry, Proteins pharmacokinetics, Proteins administration & dosage, Animals, Drug Carriers chemistry, Chitosan chemistry, Hydrophobic and Hydrophilic Interactions, Biological Availability, Nanoparticles chemistry, Polysaccharides chemistry, Peptides chemistry, Peptides pharmacokinetics
Abstract

Oral drug delivery is a prevalent and cost-effective method due to its advantages, such as increased drug absorption surface area and improved patient compliance. However, delivering proteins and peptides orally remains a challenge due to their vulnerability to degradation by digestive enzymes, stomach acids, and limited intestinal membrane permeability, resulting in poor bioavailability. The use of nanotechnology has emerged as a promising solution to enhance the bioavailability of these vital therapeutic agents. Polymeric NPs, made from natural or synthetic polymers, are commonly used. Natural polysaccharides, such as alginate, chitosan, dextran, starch, pectin, etc., have gained preference due to their biodegradability, biocompatibility, and versatility in encapsulating various drug types. Their hydrophobic-hydrophilic properties can be tailored to suit different drug molecules., (Copyright© Bentham Science Publishers; For any queries, please email at epub@benthamscience.net.)

Published
2024
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24. Synthesis of Functionalized Pyrimidines from Propargylic alcohols and their Derivatives: Two Decades of Developments.

Author

Mishra S, Raikwar S, and Baire B

Abstract

Pyrimidine is a six-membered diaza-heterocycle i. e., 1,3-diazine. It is found to be present in many biologically and pharmacologically active scaffolds like nucleotides, natural products, and drugs. The bioactivities of pyrimidine include anti-tubercular, anti-bacterial, anti-fungal, anti-viral, anti-inflammatory, anti-malarial, anti-cancer, anti-neoplastic and many more. In this review article we have summarized various synthetic approaches that involve the synthesis of these privileged building blocks by employing propargylic alcohols and their derivatives like propargylic esters and propargylic ynones as three carbon-components. Here, we have confined ourselves to the developments appeared during the period of 23 years i. e., 2000-2022., (© 2023 Wiley-VCH GmbH.)

Published
2023
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25. Cerebrospinal Fluid Biomarkers for Diagnosis and the Prognostication of Acute Ischemic Stroke: A Systematic Review.

Author

Naik A, Adeleye O, Koester SW, Winkler EA, Hartke JN, Karahalios K, Mihaljevic S, Rani A, Raikwar S, Rulney JD, Desai SM, Scherschinski L, Ducruet AF, Albuquerque FC, Lawton MT, Catapano JS, Jadhav AP, and Jha RM

Subjects
Humans, Proteomics, Biomarkers, Fatty Acids, Nonesterified, Ischemic Stroke diagnosis, Stroke diagnosis
Abstract

Despite the high incidence and burden of stroke, biological biomarkers are not used routinely in clinical practice to diagnose, determine progression, or prognosticate outcomes of acute ischemic stroke (AIS). Because of its direct interface with neural tissue, cerebrospinal fluid (CSF) is a potentially valuable source for biomarker development. This systematic review was conducted using three databases. All trials investigating clinical and preclinical models for CSF biomarkers for AIS diagnosis, prognostication, and severity grading were included, yielding 22 human trials and five animal studies for analysis. In total, 21 biomarkers and other multiomic proteomic markers were identified. S100B, inflammatory markers (including tumor necrosis factor-alpha and interleukin 6), and free fatty acids were the most frequently studied biomarkers. The review showed that CSF is an effective medium for biomarker acquisition for AIS. Although CSF is not routinely clinically obtained, a potential benefit of CSF studies is identifying valuable biomarkers from the pathophysiologic microenvironment that ultimately inform optimization of targeted low-abundance assays from peripheral biofluid samples (e.g., plasma). Several important catabolic and anabolic markers can serve as effective measures of diagnosis, etiology identification, prognostication, and severity grading. Trials with large cohorts studying the efficacy of biomarkers in altering clinical management are still needed.

Published
2023
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26. Precision Effects of Glibenclamide on MRI Endophenotypes in Clinically Relevant Murine Traumatic Brain Injury.

Author

Zusman BE, Wu Y, Kochanek PM, Vagni VE, Janesko-Feldman K, Gerzanich V, Simard JM, Karahalios K, Mihaljevic S, Raikwar S, Rani A, Rulney J, Desai SM, Catapano J, and Jha RM

Subjects
Animals, Male, Mice, Bayes Theorem, Disease Models, Animal, Endophenotypes, Glyburide pharmacology, Glyburide therapeutic use, Magnetic Resonance Imaging, Mice, Inbred C57BL, Brain Contusion complications, Brain Contusion drug therapy, Brain Edema diagnostic imaging, Brain Edema drug therapy, Brain Edema etiology, Brain Injuries drug therapy, Brain Injuries, Traumatic diagnostic imaging, Brain Injuries, Traumatic drug therapy, Brain Injuries, Traumatic complications
Abstract

Objectives: Addressing traumatic brain injury (TBI) heterogeneity is increasingly recognized as essential for therapy translation given the long history of failed clinical trials. We evaluated differential effects of a promising treatment (glibenclamide) based on dose, TBI type (patient selection), and imaging endophenotype (outcome selection). Our goal to inform TBI precision medicine is contextually timely given ongoing phase 2/planned phase 3 trials of glibenclamide in brain contusion., Design: Blinded randomized controlled preclinical trial of glibenclamide on MRI endophenotypes in two established severe TBI models: controlled cortical impact (CCI, isolated brain contusion) and CCI+hemorrhagic shock (HS, clinically common second insult)., Setting: Preclinical laboratory., Subjects: Adult male C57BL/6J mice (n = 54)., Interventions: Mice were randomized to naïve, CCI±HS with vehicle/low-dose (20 μg/kg)/high-dose glibenclamide (10 μg/mouse). Seven-day subcutaneous infusions (0.4 μg/hr) were continued., Measurements and Main Results: Serial MRI (3 hr, 6 hr, 24 hr, and 7 d) measured hematoma and edema volumes, T2 relaxation (vasogenic edema), apparent diffusion coefficient (ADC, cellular/cytotoxic edema), and 7-day T1-post gadolinium values (blood-brain-barrier [BBB] integrity). Linear mixed models assessed temporal changes. Marked heterogeneity was observed between CCI versus CCI+HS in terms of different MRI edema endophenotypes generated (all p < 0.05). Glibenclamide had variable impact. High-dose glibenclamide reduced hematoma volume ~60% after CCI (p = 0.0001) and ~48% after CCI+HS (p = 4.1 × 10-6) versus vehicle. Antiedema benefits were primarily in CCI: high-dose glibenclamide normalized several MRI endophenotypes in ipsilateral cortex (all p < 0.05, hematoma volume, T2, ADC, and T1-post contrast). Acute effects (3 hr) were specific to hematoma (p = 0.001) and cytotoxic edema reduction (p = 0.0045). High-dose glibenclamide reduced hematoma volume after TBI with concomitant HS, but antiedema effects were not robust. Low-dose glibenclamide was not beneficial., Conclusions: High-dose glibenclamide benefitted hematoma volume, vasogenic edema, cytotoxic edema, and BBB integrity after isolated brain contusion. Hematoma and cytotoxic edema effects were acute; longer treatment windows may be possible for vasogenic edema. Our findings provide new insights to inform interpretation of ongoing trials as well as precision design (dose, sample size estimation, patient selection, outcome selection, and Bayesian analysis) of future TBI trials of glibenclamide., Competing Interests: Dr. Kochanek’s institution received funding from the National Institutes of Health (NIH). Drs. Kochanek’s and Jha’s institutions received funding from The Chuck Noll Foundation. Drs. Kochanek, Simard, Karahalios, and Jha received support for article research from the NIH. Dr. Simard’s institution received funding from the National Institutes of Neurological Disorders and Stroke (NINDS) (R01NS102589); he received funding from Remedy Pharmaceuticals. Drs. Simard and Jha received funding from Biogen. Dr. Jha’s institution received funding from NINDS (K23NS101036 and R01NS115815) and the Barrow Neurological Foundation; she disclosed the off-label product use of BIIB093. Dr. Kochanek is supported by the Ake Grenvik Endowment. Dr. Jha is a paid consultant and on the advisory board for Biogen. Dr. Simard holds a U.S. patent (7,285,574), “A novel non-selective cation channel in neural cells and methods for treating brain swelling.” Dr. Simard is a member of the Board of Directors and holds shares in Remedy Pharmaceuticals and is a paid consultant for Biogen. This study was not funded, reviewed, edited, or influenced in any way by Biogen. The remaining authors have disclosed that they do not have any potential conflicts of interest., (Copyright © 2022 The Author(s). Published by Wolters Kluwer Health, Inc. on behalf of the Society of Critical Care Medicine and Wolters Kluwer Health, Inc.)

Published
2023
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28. Opportunities in combinational chemo-immunotherapy for breast cancer using nanotechnology: an emerging landscape.

Author

Raikwar S, Jain A, Saraf S, Bidla PD, Panda PK, Tiwari A, Verma A, and Jain SK

Subjects
Drug Delivery Systems, Female, Humans, Immunotherapy, Nanotechnology, Antineoplastic Agents therapeutic use, Breast Neoplasms drug therapy, Nanoparticles, Neoplasms drug therapy
Abstract

Introduction: Breast carcinoma (BC) is one of the most frequent causes of cancer-related death among women, which is due to the poor response to conventional therapy. There are several complications associated with monotherapy for cancer, such as cytotoxicity to normal cells, multidrug resistance (MDR), side effects, and limited applications. To overcome these challenges, a combination of chemotherapy and immunotherapy (monoclonal antibodies, anticancer vaccines, checkpoint inhibitors, and cytokines) has been introduced. Drug delivery systems (DDSs) based on nanotechnology have more applications in BC treatment owing to their controlled and targeted drug release with lower toxicity and reduced adverse drug effects. Several nanocarriers, such as liposomes, nanoparticles, dendrimers, and micelles, have been used for the effective delivery of drugs., Areas Covered: This article presents opportunities and challenges in BC treatment, the rationale for cancer immunotherapy, and several combinational approaches with their applications for BC treatment., Expert Opinion: Nanotechnology can be used for the early prognosis and cure of BC. Several novel and targeted DDSs have been developed to enhance the efficacy of anticancer drugs. This article aims to understand new strategies for the treatment of BC and the appropriate design of nanocarriers used as a combinational DDS.

Published
2022
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29. Sulfonylurea Receptor 1 in Central Nervous System Injury: An Updated Review.

Author

Jha RM, Rani A, Desai SM, Raikwar S, Mihaljevic S, Munoz-Casabella A, Kochanek PM, Catapano J, Winkler E, Citerio G, Hemphill JC, Kimberly WT, Narayan R, Sahuquillo J, Sheth KN, and Simard JM

Subjects
Animals, Brain Injuries etiology, Brain Injuries metabolism, Central Nervous System Diseases etiology, Central Nervous System Diseases metabolism, Humans, Brain Injuries pathology, Central Nervous System Diseases pathology, Sulfonylurea Receptors metabolism
Abstract

Sulfonylurea receptor 1 (SUR1) is a member of the adenosine triphosphate (ATP)-binding cassette (ABC) protein superfamily, encoded by Abcc8, and is recognized as a key mediator of central nervous system (CNS) cellular swelling via the transient receptor potential melastatin 4 (TRPM4) channel. Discovered approximately 20 years ago, this channel is normally absent in the CNS but is transcriptionally upregulated after CNS injury. A comprehensive review on the pathophysiology and role of SUR1 in the CNS was published in 2012. Since then, the breadth and depth of understanding of the involvement of this channel in secondary injury has undergone exponential growth: SUR1-TRPM4 inhibition has been shown to decrease cerebral edema and hemorrhage progression in multiple preclinical models as well as in early clinical studies across a range of CNS diseases including ischemic stroke, traumatic brain injury, cardiac arrest, subarachnoid hemorrhage, spinal cord injury, intracerebral hemorrhage, multiple sclerosis, encephalitis, neuromalignancies, pain, liver failure, status epilepticus, retinopathies and HIV-associated neurocognitive disorder. Given these substantial developments, combined with the timeliness of ongoing clinical trials of SUR1 inhibition, now, another decade later, we review advances pertaining to SUR1-TRPM4 pathobiology in this spectrum of CNS disease-providing an overview of the journey from patch-clamp experiments to phase III trials.

Published
2021
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30. A sham-controlled trial of repetitive transcranial magnetic stimulation over left dorsolateral prefrontal cortex and its effects on craving in patients with alcohol dependence.

Author

Raikwar S, Divinakumar KJ, Prakash J, Khan SA, GuruPrakash KV, and Batham S

Abstract

Aim: The aim of this study is to study the effects of repetitive transcranial magnetic stimulation (rTMS) therapy over the left dorsolateral prefrontal cortex (DLPFC) in craving in drug-naive male inpatients of alcohol dependence syndrome., Methods: A single-blind randomized sham-controlled study involving sixty inpatients of alcohol dependence syndrome in a tertiary care center. Following detoxification and consent, the patients were allocated into either active or sham groups for rTMS protocol. Daily sessions of rTMS were administered over the left DLPFC at 120% of motor threshold at high-frequency (10 Hz) stimulation with 4 s train, inter-train interval of 26 s, and a total of twenty trains per session. Alcohol craving questionnaire (ACQ-NOW) was administered thrice for each patient, i.e., before rTMS, on completion of rTMS, and 02 weeks following completion of rTMS., Results: Analysis of variance of scores of ACQ NOW pre rTMS and immediately after and 2 weeks post rTMS did not show significant reduction in craving scores., Conclusion: Administration of ten daily sessions of high-frequency rTMS over the left DLPFC did not have significant effect in reducing craving in patients with alcohol dependence syndrome., Competing Interests: There are no conflicts of interest., (Copyright: © 2021 Industrial Psychiatry Journal.)

Published
2020
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31. Novel Strategies for Targeting Prostate Cancer.

Author

Panda PK, Saraf S, Tiwari A, Verma A, Raikwar S, Jain A, and Jain SK

Subjects
Animals, Antineoplastic Agents therapeutic use, Drug Carriers chemistry, Humans, Male, Prostatic Neoplasms drug therapy, Antineoplastic Agents administration & dosage, Antineoplastic Agents pharmacokinetics, Drug Delivery Systems, Lipids chemistry, Nanoparticles chemistry, Prostatic Neoplasms metabolism
Abstract

Prostate cancer (PCa) is a worldwide issue, with a rapid increase in its occurrence and mortality. Over the years, various strategies have been implemented to overcome the hurdles that exist in the treatment of PCa. Consistently, there is a change in opinion about the methodologies in clinical trial that have engrossed towards the treatment of PCa. Currently, there is a need to resolve these newly recognized challenges by developing newer rational targeting systems. The ongoing clinical protocol for the therapy using different targeting systems is undertaken followed by local targeting to cancer site. A number of new drug targeting systems like liposomes, nanoemulsions, magnetic nanoparticles (MNPs), solid lipid nanoparticles, drug-peptide conjugate systems, drug-antibody conjugate systems, epigenetic and gene therapy approaches, and therapeutic aptamers are being developed to suit this protocol. Recent advancements in the treatment of PCa with various nanocarriers have been reported with respect to newly identified biological barriers and intended to solve the contexts. This review encompasses the input of nanotechnology in particular targeting of PCa which might escape the lifethreatening side effects and potentially contribute to bring fruitful clinical outcomes., (Copyright© Bentham Science Publishers; For any queries, please email at epub@benthamscience.net.)

Published
2019
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32. Nanocarrier-Based Combination Chemotherapy for Resistant Tumor: Development, Characterization, and Ex Vivo Cytotoxicity Assessment.

Author

Raikwar S, Vyas S, Sharma R, Mody N, Dubey S, and Vyas SP

Subjects
Animals, Breast Neoplasms drug therapy, Doxorubicin administration & dosage, Doxorubicin toxicity, Drug Carriers administration & dosage, Drug Carriers toxicity, Drug Liberation, Drug Resistance, Neoplasm physiology, Drug Therapy, Combination methods, Female, Humans, Lipids chemistry, MCF-7 Cells, Mice, Nanostructures administration & dosage, Nanostructures toxicity, Paclitaxel administration & dosage, Paclitaxel toxicity, Particle Size, Doxorubicin chemistry, Drug Carriers chemistry, Drug Resistance, Neoplasm drug effects, Nanostructures chemistry, Paclitaxel chemistry
Abstract

A folic acid-conjugated paclitaxel (PTX)-doxorubicin (DOX)-loaded nanostructured lipid carrier(s) (FA-PTX-DOX NLCs) were prepared by using emulsion-evaporation method and extensively characterized for particle size, polydispersity index, zeta potential, and % entrapment efficiency which were found to be 196 ± 2.5 nm, 0.214 ± 0.04, +23.4 ± 0.3 mV and 88.3 ± 0.2% (PTX), and 89.6 ± 0.5% (DOX) respectively. In vitro drug release study of optimized formulation was carried out using dialysis tube method. FA-conjugated PTX-DOX-loaded NLCs showed 75.6 and 78.4% (cumulative drug release) of PTX and DOX respectively in 72 h in PBS (pH 7.4)/methanol (7:3), while in the case of FA-conjugated PTX-DOX-loaded NLCs, cumulative drug release recorded was 80.4 and 82.8% of PTX and DOX respectively in 72 h in PBS (pH 4.0)/methanol (7:3). Further, the formulation(s) were evaluated for ex vivo cytotoxicity study. The cytotoxicity assay in doxorubicin-resistant human breast cancer MCF-7/ADR cell lines revealed lowest GI 50 value of FA-D-P NLCs which was 1.04 ± 0.012 μg/ml, followed by D-P NLCs and D-P solution with GI 50 values of 3.12 ± 0.023 and 3.89 ± 0.007 μg/ml, respectively. Findings indicated that the folic acid-conjugated PTX and DOX co-loaded NLCs exhibited lower GI 50 values as compared to unconjugated PTX and DOX co-loaded NLCs; thus, they have relatively potential anticancer efficacy against resistant tumor.

Published
2018
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33. Cross-Talk between Glia, Neurons and Mast Cells in Neuroinflammation Associated with Parkinson's Disease.

Author

Kempuraj D, Selvakumar GP, Zaheer S, Thangavel R, Ahmed ME, Raikwar S, Govindarajan R, Iyer S, and Zaheer A

Subjects
Animals, Cells, Cultured, Coculture Techniques, Inflammation immunology, Mice, Mice, Inbred C57BL, Parkinson Disease immunology, Receptor Cross-Talk, Inflammation metabolism, Mast Cells metabolism, Neuroglia metabolism, Neurons metabolism, Parkinson Disease metabolism
Abstract

Parkinson's disease (PD) is a progressive movement disorder characterized by neuroinflammation and dopaminergic neurodegeneration in the brain. 1-methyl-4-phenylpyridinium (MPP + ), a metabolite of the parkinsonian neurotoxin 1-methyl-4-phenyl-1,2,3,6-tetrahydropyridine (MPTP) induces the release of inflammatory mediators from glial cells and neurons. Glia maturation factor (GMF), a brain proinflammatory protein, MPP + , and mast cell-derived inflammatory mediators induce neurodegeneration which eventually leads to PD. However, the precise mechanisms underlying interaction between glial cells, neurons and mast cells in PD still remain elusive. In the present study, mouse bone marrow-derived mast cells (BMMCs) and mouse fetal brain-derived mixed glia/neurons, astrocytes and neurons were incubated with MPP + , GMF and mast cell-derived inflammatory mediators mouse mast cell protease-6 (MMCP-6), MMCP-7 or tryptase/brain-specific serine protease-4 (tryptase/BSSP-4). Inflammatory mediators released from these cells in the culture medium were quantitated by enzyme-linked immunosorbent assay. Neurodegeneration was quantified by measuring total neurite outgrowth following microtubule-associated protein-2 immunocytochemistry. MPP + -induced significant neurodegeneration with reduced total neurite outgrowth. MPP + induced the release of tryptase/BSSP-4 from the mouse mast cells, and tryptase/BSSP-4 induced chemokine (C-C motif) ligand 2 (CCL2) release from astrocytes and glia/neurons. Overall our results suggest that MPP + , GMF, MMCP-6 or MMCP-7 stimulate glia/neurons, astrocytes or neurons to release CCL2 and matrix metalloproteinase-3. Additionally, CD40L expression is increased in BMMCs after incubation with MPP + in a co-culture system consisting of BMMCs and glia/neurons. We propose that mast cell interaction with glial cells and neurons during neuroinflammation can be explored as a new therapeutic target for PD.

Published
2018
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34. Co-Expression of Glia Maturation Factor and Apolipoprotein E4 in Alzheimer's Disease Brain.

Author

Thangavel R, Bhagavan SM, Ramaswamy SB, Surpur S, Govindarajan R, Kempuraj D, Zaheer S, Raikwar S, Ahmed ME, Selvakumar GP, Iyer SS, and Zaheer A

Subjects
Alzheimer Disease genetics, Alzheimer Disease pathology, Amyloid beta-Peptides metabolism, Apolipoprotein E4 genetics, Brain pathology, Case-Control Studies, Fluorescent Antibody Technique, Glia Maturation Factor genetics, Humans, Neurofibrillary Tangles pathology, Plaque, Amyloid pathology, Alzheimer Disease metabolism, Apolipoprotein E4 metabolism, Brain metabolism, Glia Maturation Factor metabolism
Abstract

Apolipoprotein E4 (ApoE4) is a major genetic risk factor for Alzheimer's disease (AD). The E4 allele of ApoE plays a crucial role in the inflammatory and neurodegenerative processes associated with AD. This is evident from the multiple effects of the ApoE isoforms in amyloid-β (Aβ) aggregation. Glia maturation factor (GMF) is a brain-specific neuroinflammatory protein that we have previously demonstrated to be significantly upregulated in various regions of AD brains compared to non-AD control brains and that it induces neurodegeneration. We have previously reported that GMF is predominantly expressed in the reactive astrocytes surrounding amyloid plaques (APs) in AD brain. In the present study, using immunohistochemical and dual immunofluorescence staining, we show the expression and colocalization of GMF and ApoE4 in AD brains. Our results show that ApoE4 is present within the APs of AD brain. Further, we found that GMF and ApoE4 were strongly expressed and co-associated in APs and in the reactive astrocytes surrounding APs in AD. An increased expression of GMF in APs and neurofibrillary tangles in the AD brain, and the co-localization of GMF and ApoE4 in APs suggest that GMF and ApoE4 together should be contributing to the neuropathological changes associated with AD.

Published
2018
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35. Glia Maturation Factor and Mitochondrial Uncoupling Proteins 2 and 4 Expression in the Temporal Cortex of Alzheimer's Disease Brain.

Author

Thangavel R, Kempuraj D, Zaheer S, Raikwar S, Ahmed ME, Selvakumar GP, Iyer SS, and Zaheer A

Abstract

Alzheimer's disease (AD) is characterized by the presence of neuropathological lesions containing amyloid plaques (APs) and neurofibrillary tangles (NFTs). AD is associated with mitochondrial dysfunctions, neuroinflammation and neurodegeneration in the brain. We have previously demonstrated enhanced expression of the proinflammatory protein glia maturation factor (GMF) in glial cells near APs and NFTs in the AD brains. Parahippocampal gyrus consisting of entorhinal and perirhinal subdivisions of temporal cortex is the first brain region affected during AD pathogenesis. Current paradigm implicates oxidative stress-mediated neuronal damage contributing to the early pathology in AD with mitochondrial membrane potential regulating reactive oxygen species (ROS) production. The inner mitochondrial membrane anion transporters called the uncoupling proteins (UCPs), function as regulators of cellular homeostasis by mitigating oxidative stress. In the present study, we have analyzed the expression of GMF and mitochondrial UCP2 and UCP4 in the parahippocampal gyrus of AD and non-AD brains by immunostaining techniques. APs were detected by thioflavin-S fluorescence staining or immunohistochemistry (IHC) with 6E10 antibody. Our current results suggest that upregulation of GMF expression is associated with down-regulation of UCP2 as well as UCP4 in the parahippocampal gyrus of AD brains as compared to non-AD brains. Further, GMF expression is associated with up-regulation of inducible nitric oxide synthase (iNOS), the enzyme that induces the production of nitric oxide (NO), as well as nuclear factor kB p65 (NF-κB p65) expression. Also, GMF appeared to localize to the mitochondria in AD brains. Based on our current observations, we propose that enhanced expression of GMF down-regulates mitochondrial UCP2 and UCP4 thereby exacerbating AD pathophysiology and this effect is potentially mediated by iNOS and NF-κB. Thus, GMF functions as an activator protein that interferes with the cytoprotective mechanisms in AD brains.

Published
2017
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36. Ectopic expression of phloem motor protein pea forisome PsSEO-F1 enhances salinity stress tolerance in tobacco.

Author

Srivastava VK, Raikwar S, Tuteja R, and Tuteja N

Subjects
Calcium metabolism, Calcium-Binding Proteins genetics, Calcium-Binding Proteins metabolism, Chlorophyll metabolism, Ectopic Gene Expression, Genes, Reporter, Homeostasis, Plant Leaves cytology, Plant Leaves drug effects, Plant Leaves genetics, Plant Leaves physiology, Plant Proteins genetics, Plants, Genetically Modified, Promoter Regions, Genetic genetics, Salinity, Salt Tolerance, Seedlings cytology, Seedlings drug effects, Seedlings genetics, Seedlings physiology, Signal Transduction, Sodium Chloride pharmacology, Stress, Physiological, Nicotiana cytology, Nicotiana drug effects, Nicotiana genetics, Gene Expression Regulation, Plant, Pisum sativum genetics, Plant Proteins metabolism, Reactive Oxygen Species metabolism, Nicotiana physiology
Abstract

Key Message: PsSEOF-1 binds to calcium and its expression is upregulated by salinity treatment. PsSEOF - 1 -overexpressing transgenic tobacco showed enhanced salinity stress tolerance by maintaining cellular ion homeostasis and modulating ROS-scavenging pathway. Calcium (Ca(2+)) plays important role in growth, development and stress tolerance in plants. Cellular Ca(2+) homeostasis is achieved by the collective action of channels, pumps, antiporters and by Ca(2+) chelators present in the cell like calcium-binding proteins. Forisomes are ATP-independent mechanically active motor proteins known to function in wound sealing of injured sieve elements of phloem tissue. The Ca(2+)-binding activity of forisome and its role in abiotic stress signaling were largely unknown. Here we report the Ca(2+)-binding activity of pea forisome (PsSEO-F1) and its novel function in promoting salinity tolerance in transgenic tobacco. Native PsSEO-F1 promoter positively responded in salinity stress as confirmed using GUS reporter. Overexpression of PsSEO-F1 tobacco plants confers salinity tolerance by alleviating ionic toxicity and increased ROS scavenging activity which probably results in reduced membrane damage and improved yield under salinity stress. Evaluation of several physiological indices shows an increase in relative water content, electrolyte leakage, proline accumulation and chlorophyll content in transgenic lines as compared with null-segregant control. Expression of several genes involved in cellular homeostasis is perturbed by PsSEO-F1 overexpression. These findings suggest that PsSEO-F1 provides salinity tolerance through cellular Ca(2+) homeostasis which in turn modulates ROS machinery providing indirect link between Ca(2+) and ROS signaling under salinity-induced perturbation. PsSEO-F1 most likely functions in salinity stress tolerance by improving antioxidant machinery and mitigating ion toxicity in transgenic lines. This finding should make an important contribution in our better understanding of the significance of calcium signaling in phloem tissue leading to salinity stress tolerance.

Published
2016
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37. Emerging Importance of Helicases in Plant Stress Tolerance: Characterization of Oryza sativa Repair Helicase XPB2 Promoter and Its Functional Validation in Tobacco under Multiple Stresses.

Author

Raikwar S, Srivastava VK, Gill SS, Tuteja R, and Tuteja N

Abstract

Genetic material always remains at the risk of spontaneous or induced damage which challenges the normal functioning of DNA molecule, thus, DNA repair is vital to protect the organisms against genetic damage. Helicases, the unique molecular motors, are emerged as prospective molecules to engineer stress tolerance in plants and are involved in nucleic acid metabolism including DNA repair. The repair helicase, XPB is an evolutionary conserved protein present in different organisms, including plants. Availability of few efficient promoters for gene expression in plants provoked us to study the promoter of XPB for better understanding of gene regulation under stress conditions. Here, we report the in silico analysis of novel stress inducible promoter of Oryza sativa XPB2 (OsXPB2). The in vivo validation of functionality/activity of OsXPB2 promoter under abiotic and hormonal stress conditions was performed by Agrobacterium-mediated transient assay in tobacco leaves using OsXPB2::GUS chimeric construct. The present research revealed that OsXPB2 promoter contains cis-elements accounting for various abiotic stresses (salt, dehydration, or cold) and hormone (Auxin, ABA, or MeJA) induced GUS expression/activity in the promoter-reporter assay. The promoter region of OsXPB2 contains CACG, GTAACG, CACGTG, CGTCA CCGCCGCGCT cis acting-elements which are reported to be salt, dehydration, cold, MeJA, or ABA responsive, respectively. Functional analysis was done by Agrobacterium-mediated transient assay using agroinfiltration in tobacco leaves, followed by GUS staining and fluorescence quantitative analyses. The results revealed high induction of GUS activity under multiple abiotic stresses as compared to mock treated control. The present findings suggest that OsXPB2 promoter is a multi-stress inducible promoter and has potential applications in sustainable crop production under abiotic stresses by regulating desirable pattern of gene expression.

Published
2015
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38. Guidelines for assessing mouse endothelial function via ultrasound imaging: a report from the International Society Of Cardiovascular Translational Research.

Author

Wang HT, Shan Z, Li W, Chu M, Yang J, Yi D, Zhan J, Yuan ZY, Raikwar S, Wang S, and Zhang C

Subjects
Acetylcholine pharmacology, Animals, Apolipoproteins E deficiency, Apolipoproteins E genetics, Carotid Artery Diseases physiopathology, Carotid Artery, Common drug effects, Carotid Artery, Common physiopathology, Disease Models, Animal, Dose-Response Relationship, Drug, Endothelium, Vascular drug effects, Endothelium, Vascular physiopathology, Male, Mice, Knockout, Predictive Value of Tests, Reproducibility of Results, Ultrasonography, Vasodilator Agents pharmacology, Carotid Artery Diseases diagnostic imaging, Carotid Artery, Common diagnostic imaging, Endothelium, Vascular diagnostic imaging
Abstract

The study is to establish a novel method to determine the endothelial function in mouse carotid arteries in vivo by using high-resolution ultrasound images. Atherosclerosis in carotid arteries is induced in ApoE(-/-) mice with a Western diet. The ultrasound of the ventral neck generates clear pictures of the common carotid arteries. Acetylcholine at the range from 5 to 20 μg/kg/min (iv) is able to induce a dose-dependent relaxation as shown by the increased diameter of these normal mouse carotid arteries, which is impaired in atherosclerotic arteries. The endothelial function determined by ultrasound images in vivo matches well with that determined in isolated carotid arterial rings in vitro. All animals survived after the endothelial function measurement. In this study, we have established a standard method to determine the mouse endothelial function in vivo. It is a reliable, safe, and survival method that could be used repetitively in mouse arteries.

Published
2015
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39. Synergistic exposure of rice seeds to different doses of γ-ray and salinity stress resulted in increased antioxidant enzyme activities and gene-specific modulation of TC-NER pathway.

Author

Macovei A, Garg B, Raikwar S, Balestrazzi A, Carbonera D, Buttafava A, Bremont JF, Gill SS, and Tuteja N

Subjects
Antioxidants metabolism, DNA Damage drug effects, DNA Damage radiation effects, Gene Expression drug effects, Gene Expression radiation effects, Seedlings drug effects, Seedlings genetics, Seedlings metabolism, Seedlings radiation effects, Signal Transduction drug effects, Signal Transduction radiation effects, Water analysis, Water metabolism, DNA Repair drug effects, DNA Repair radiation effects, Oryza drug effects, Oryza genetics, Oryza metabolism, Oryza radiation effects, Seeds drug effects, Seeds genetics, Seeds metabolism, Seeds radiation effects, Sodium Chloride pharmacology, X-Rays
Abstract

Recent reports have underlined the potential of gamma (γ)-rays as tools for seed priming, a process used in seed industry to increase seed vigor and to enhance plant tolerance to biotic/abiotic stresses. However, the impact of γ -rays on key aspects of plant metabolism still needs to be carefully evaluated. In the present study, rice seeds were challenged with different doses of γ -rays and grown in absence/presence of NaCl to assess the impact of these treatments on the early stages of plant life. Enhanced germination efficiency associated with increase in radicle and hypocotyl length was observed, while at later stages no increase in plant tolerance to salinity stress was evident. APX, CAT, and GR were enhanced at transcriptional level and in terms of enzyme activity, indicating the activation of antioxidant defence. The profiles of DNA damage accumulation were obtained using SCGE and the implication of TC-NER pathway in DNA damage sensing and repair mechanisms is discussed. OsXPB2, OsXPD, OsTFIIS, and OsTFIIS-like genes showed differential modulation in seedlings and plantlets in response to γ -irradiation and salinity stress. Altogether, the synergistic exposure to γ -rays and NaCl resulted in enhanced oxidative stress and proper activation of antioxidant mechanisms, thus being compatible with plant survival.

Published
2014
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40. Cloning and functional characterization of the promoter of PsSEOF1 gene from Pisum sativum under different stress conditions using Agrobacterium-mediated transient assay.

Author

Srivastava VK, Raikwar S, and Tuteja N

Subjects
Agrobacterium genetics, Base Sequence, Cloning, Molecular, DNA, Plant genetics, Gene Expression Regulation, Plant, Genes, Reporter, Glucuronidase genetics, Molecular Sequence Data, Pisum sativum physiology, Plant Proteins genetics, Plants, Genetically Modified, Stress, Physiological, Nicotiana genetics, Nicotiana physiology, Genes, Plant, Pisum sativum genetics, Promoter Regions, Genetic
Abstract

PsSEOF1, a SEO (sieve element occlusion) gene family protein (forisome) is calcium powered motor protein and is located close to plasma membrane of sieve element. In sieve element (SE) it senses the calcium ion levels and undergoes ATP-independent conformational shifts. Forisome, meaning gate-bodies (Latin foris: wing of a gate; Greek soma: body). Recent reports show that SEO gene family protein can prevent the loss of nutrient rich photoassimilate upon wound injury. The regulation of SEO protein forisome under abiotic/ biotic stress is still unknown. The analysis of cis-regulatory element present in the upstream region is not well understood. Tissue specific promoters guarantee correct expression when it perceives particular stimuli. Here we report isolation of tissue specific promoter of PsSEOF1 was isolated by gene walking PCR from P. sativum (pea) genomic DNA library constructed by BD genome walker kit. In silico analysis revealed several putative cis element within this promoter sequence like wound response, cold, dehydration. Putative elements which might be required for its vascular tissue specificity has also been identified. The GUS activities of PsSEOF1 promoter-GUS chimeric construct in the agroinfiltrated leaves under different environmental stress abiotic and biotic like wound, cold, salt and phytohormones has shown high level of GUS activity. To identify the activity of PsSEOF1 promoter under different stress condition an Agrobacterium-mediated transient expression of tobacco plants were subjected to histochemical GUS staining. Stress-inducible nature of PsSEOF1 promoter opens possibility for the study of the PsSEOF1 gene regulation under stress condition. The isolated promoter sequence could serve as an important candidate for tissue specific promoter in genetic engineering of plant under stress conditions.

Published
2014
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41. Characterization of intestinal and pancreatic dysfunction in VPAC1-null mutant mouse.

Author

Fabricius D, Karacay B, Shutt D, Leverich W, Schafer B, Takle E, Thedens D, Khanna G, Raikwar S, Yang B, Desmond ME, and O'Dorisio MS

Subjects
Animals, Base Sequence, Blood Glucose metabolism, DNA Primers genetics, Female, Gene Expression Regulation, Developmental, Gene Targeting, Glucose Tolerance Test, Heterozygote, Homozygote, Intestines pathology, Islets of Langerhans embryology, Islets of Langerhans pathology, Islets of Langerhans physiopathology, Male, Mice, Mice, Inbred C57BL, Mice, Knockout, Pancreas pathology, Pregnancy, Receptors, Vasoactive Intestinal Polypeptide, Type I genetics, Receptors, Vasoactive Intestinal Polypeptide, Type I physiology, Intestines embryology, Intestines physiopathology, Pancreas embryology, Pancreas physiopathology, Receptors, Vasoactive Intestinal Polypeptide, Type I deficiency
Abstract

Objectives: These studies examined the effect of homozygous deletion of vasoactive intestinal peptide receptor type 1 (VPAC1) on development and function of intestines and pancreas., Methods: Genetically engineered VPAC1-null mutant mice were monitored for growth, development, and glucose homeostasis. Expression of VPAC1 was examined during embryonic development using VPAC1 promoter-driven β-galactosidase transgenic mice., Results: Homozygous deletion of VPAC1 resulted in fetal, neonatal, and postweaning death owing to failure to thrive, intestinal obstruction, and hypoglycemia. Histological findings demonstrated disorganized hyperproliferation of intestinal epithelial cells with mucus deposition and bowel wall thickening. The pancreas demonstrated small dysmorphic islets of Langerhans containing α, β, and δ cells. Expression of a VPAC1 promoter-driven transgene was observed in E12.5 and E14.5 intestinal epithelial and pancreatic endocrine cells. Vasoactive intestinal peptide receptor type 1-null mutant animals had lower baseline blood glucose levels compared to both heterozygous and wild-type littermates. Vasoactive intestinal peptide receptor type 1-deficient mice responded to oral glucose challenge with normal rise in blood glucose followed by rapid hypoglycemia and failure to restore baseline glucose levels. Insulin challenge resulted in profound hypoglycemia and inadequate glucose homeostasis in VPAC1-null mutant animals., Conclusions: These observations support a role for VPAC1 during embryonic and neonatal development of intestines and endocrine pancreas.

Published
2011
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42. Transcriptional targeting modalities in breast cancer gene therapy using adenovirus vectors controlled by alpha-lactalbumin promoter.

Author

Li X, Zhang J, Gao H, Vieth E, Bae KH, Zhang YP, Lee SJ, Raikwar S, Gardner TA, Hutchins GD, VanderPutten D, Kao C, and Jeng MH

Subjects
Adenoviridae pathogenicity, Adenovirus E1A Proteins genetics, Adenovirus E1B Proteins genetics, Animals, Apoptosis genetics, Base Sequence, Blotting, Western, Breast Neoplasms genetics, Cell Line, Tumor, DNA Primers, Female, Humans, Male, Mammary Glands, Human metabolism, Mice, Mice, Nude, Prostatic Neoplasms genetics, Reverse Transcriptase Polymerase Chain Reaction, Virulence, Virus Replication, Adenoviridae genetics, Breast Neoplasms therapy, Genetic Therapy, Genetic Vectors, Lactalbumin genetics, Promoter Regions, Genetic
Abstract

The breast-specific antigen alpha-lactalbumin is expressed in >60% of breast cancer tissues. To evaluate the effect of gene therapy for breast cancer by controlling adenovirus replication with human alpha-lactalbumin promoter, we investigated the activity of a 762-bp human alpha-lactalbumin promoter. Alpha-lactalbumin promoter showed significantly higher activity in MDA-MB-435S and T47D breast cancer cells than in normal breast cell lines or other tumor cell lines. We then developed two novel breast cancer-restricted replicative adenoviruses, AdALAE1a and AdE1aALAE1b. In AdALAE1a, expression of adenoviral E1a gene is under the control of alpha-lactalbumin promoter, and in AdE1aALAE1b, expression of both E1a and E1b genes is under the control of a single alpha-lactalbumin promoter. Both breast cancer-restricted replicative adenoviruses showed viral replication efficiency and tumor cell-killing capability similar to wild-type adenovirus in MDA-MB-435S and T47D cells. The replication efficiency and tumor cell-killing capability of both viruses were attenuated significantly in cells that did not support alpha-lactalbumin promoter. AdE1aALAE1b showed better breast cancer-restricted replication than AdALAE1a, suggesting that a transcriptional targeting modality with alpha-lactalbumin promoter controlling both E1a and E1b gene expression is superior to alpha-lactalbumin promoter controlling only E1a gene expression. Importantly, we found that AdE1aALAE1b could be used to target hormone-independent breast tumors in vivo by inhibiting the growth of MDA-MB-435S s.c. tumors. These data showed that alpha-lactalbumin promoter could regulate the replication of adenovirus to target hormone-independent breast cancers, suggesting that alpha-lactalbumin promoter can be used to develop a novel therapeutic modality for hormone-independent breast cancer.

Published
2005
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43. [11C]Choline as a PET biomarker for assessment of prostate cancer tumor models.

Author

Zheng QH, Gardner TA, Raikwar S, Kao C, Stone KL, Martinez TD, Mock BH, Fei X, Wang JQ, and Hutchins GD

Subjects
Animals, Carbon Radioisotopes, Choline chemical synthesis, Disease Models, Animal, Humans, Male, Mice, Prostatic Neoplasms metabolism, Radiopharmaceuticals pharmacokinetics, Time Factors, Tissue Distribution, Choline pharmacokinetics, Positron-Emission Tomography, Prostatic Neoplasms diagnostic imaging
Abstract

[(11)C]Choline has been evaluated as a positron emission tomography (PET) biomarker for assessment of established human prostate cancer tumor models. [(11)C]Choline was prepared by the reaction of [(11)C]methyl triflate with 2-dimethylaminoethanol (DMAE) and isolated and purified by solid-phase extraction (SPE) method in 60-85% yield based on [(11)C]CO(2), 15-20 min overall synthesis time from end of bombardment (EOB), 95-99% radiochemical purity and specific activity >0.8 Ci/micromol at end of synthesis (EOS). The biodistribution of [(11)C]choline was determined at 30 min post iv injection in prostate cancer tumor models C4-2, PC-3, CWR22rv, and LNCaP tumor-bearing athymic mice. The results showed the accumulation of [(11)C]choline in these tumors was 1.0% dose/g in C4-2 mouse, 0.4% dose/g in PC-3 mice, 3.2% dose/g in CWR22rv mice, and 1.4% dose/g in LNCaP mice; the ratios of tumor/muscle (T/M) and tumor/blood (T/B) were 2.3 (T/M, C4-2), 1.4 (T/M, PC-3), 2.5 (T/M, CWR22rv), 1.2 (T/M, LNCaP) and 2.6 (T/B, C4-2), 2.6 (T/B, PC-3), 7.8 (T/B, CWR22rv), 3.2 (T/B, LNCaP), respectively. The micro-PET imaging of [(11)C]choline in prostate cancer tumor models was acquired from a C4-2, PC-3, CWR22rv, or LNCaP implanted mouse at 30 min post iv injection of 1 mCi of the tracer using a dedicated high resolution (<3 mm full-width at half-maximum) small FOV (field-of-view) PET imaging system, IndyPET-II scanner, developed in our laboratory, which showed the accumulation of [(11)C]choline in C4-2, PC-3, CWR22rv, or LNCaP tumor implanted in a nude athymic mouse. The initial dynamic micro-PET imaging data indicated the average T/M ratios were approximately 3.0 (C4-2), 2.1 (PC-3), 3.5 (CWR22rv), and 3.3 (LNCaP), respectively, which showed the tumor accumulation of [(11)C]choline in all four tumor models is high. These results suggest that there are significant differences in [(11)C]choline accumulation between these different tumor types, and these differences might offer some useful measure of tumor biological process.

Published
2004
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44. Recombinant human parvovirus B19 vectors: erythroid cell-specific delivery and expression of transduced genes.

Author

Ponnazhagan S, Weigel KA, Raikwar SP, Mukherjee P, Yoder MC, and Srivastava A

Subjects
Bone Marrow Cells physiology, Cell Line, Cell Lineage genetics, Genes, Reporter, Humans, Lac Operon, DNA, Recombinant genetics, Dependovirus genetics, Erythroblasts physiology, Gene Transfer Techniques, Genetic Vectors, Parvovirus genetics
Abstract

A novel packaging strategy combining the salient features of two human parvoviruses, namely the pathogenic parvovirus B19 and the nonpathogenic adeno-associated virus type 2 (AAV), was developed to achieve erythroid cell-specific delivery as well as expression of the transduced gene. The development of such a chimeric vector system was accomplished by packaging heterologous DNA sequences cloned within the inverted terminal repeats of AAV and subsequently packaging the DNA inside the capsid structure of B19 virus. Recombinant B19 virus particles were assembled, as evidenced by electron microscopy as well as DNA slot blot analyses. The hybrid vector failed to transduce nonerythroid human cells, such as 293 cells, as expected. However, MB-02 cells, a human megakaryocytic leukemia cell line which can be infected by B19 virus following erythroid differentiation with erythropoietin (N. C. Munshi, S. Z. Zhou, M. J. Woody, D. A. Morgan, and A. Srivastava, J. Virol. 67:562-566, 1993) but lacks the putative receptor for AAV (S. Ponnazhagan, X.-S. Wang, M. J. Woody, F. Luo, L. Y. Kang, M. L. Nallari, N. C. Munshi, S. Z. Zhou, and A. Srivastava, J. Gen. Virol. 77:1111-1122, 1996), were readily transduced by this vector. The hybrid vector was also found to specifically target the erythroid population in primary human bone marrow cells as well as more immature hematopoietic progenitor cells following erythroid differentiation, as evidenced by selective expression of the transduced gene in these target cells. Preincubation with anticapsid antibodies against B19 virus, but not anticapsid antibodies against AAV, inhibited transduction of primary human erythroid cells. The efficiency of transduction of primary human erythroid cells by the recombinant B19 virus vector was significantly higher than that by the recombinant AAV vector. Further development of the AAV-B19 virus hybrid vector system should prove beneficial in gene therapy protocols aimed at the correction of inherited and acquired human diseases affecting cells of erythroid lineage.

Published
1998
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45. Recombinant adenovirus synthesizing cell surface-anchored beta hCG induces bioneutralizing antibodies in rats.

Author

Raikwar SP, Malik P, Singh O, and Vrati S

Subjects
Animals, DNA, Complementary, Humans, Neutralization Tests, Plasmids, Rats, Rats, Wistar, Recombination, Genetic, Vaccines, Synthetic genetics, Vaccines, Synthetic immunology, Adenoviridae genetics, Antibody Formation genetics, Chorionic Gonadotropin, beta Subunit, Human biosynthesis
Abstract

A recombinant adenovirus (re-Ad) has been constructed that synthesizes a cell surface-anchored form of the beta-subunit of human chorionic gonadotropin (beta hCG). This was achieved by in-frame fusion of beta hCG cDNA at its C terminus with the gene sequences coding for the vesicular stomatitis virus glycoprotein (VSVg) transmembrane domain. The fusion protein gene was placed under the control of human cytomegalovirus (hCMV) immediate early promoter and this expression cassette was inserted into the E1 region of Ad type 5 by homologous recombination. In vitro experiments using re-Ad-infected 293 cells showed that beta hCG fusion protein was made as early as 6 h post infection and the protein was anchored to the cell membrane as seen by immunofluorescence staining. The re-Ad induced bioneutralizing antibodies (Ab) to hCG when inoculated in rats through intraperitoneal or intramuscular routes. The Ab were made in a dose-dependent manner. However, orally delivered re-Ad failed to generate any significant immune response.

Published
1997
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