Publications by authors named "Sumit Jamwal"

Childhood neglect is associated with cortical thinning, hyperactivity, and deficits in cognitive flexibility that are difficult to reverse later in life. Despite being the most prevalent form of early adversity, little is currently understood about the mechanisms responsible for these neurodevelopmental abnormalities, and no animal models have yet replicated key structural and behavioral features of childhood neglect/deprivation. To address these gaps, we have recently demonstrated that mice exposed to impoverished conditions, specifically limited bedding (LB), exhibit behavioral and structural changes that resemble those observed in adolescents who have experienced severe neglect.

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Abnormal development and function of the hippocampus are two of the most consistent findings in humans and rodents exposed to early-life adversity (ELA), with males often being more affected than females. Using the limited bedding (LB) paradigm as a rodent model of ELA, we found that male adolescent mice that had been exposed to LB exhibit significant deficits in contextual fear conditioning and synaptic connectivity in the hippocampus, which are not observed in females. This is linked to altered developmental refinement of connectivity, with LB severely impairing microglial-mediated synaptic pruning in the hippocampus of male and female pups on postnatal day 17 (P17), but not in adolescent P33 mice when levels of synaptic engulfment by microglia are substantially lower.

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Neurodegenerative disorders are diseases characterized by progressive degeneration of neurons and associated structures and are a major global issue growing more widespread as the global population's average age increases. Despite several investigations on their etiology, the specific cause of these disorders remains unknown. However, there are few symptomatic therapies to treat these disorders.

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Abnormal development and function of the hippocampus are two of the most consistent findings in humans and rodents exposed to early life adversity, with males often being more affected than females. Using the limited bedding (LB) paradigm as a rodent model of early life adversity, we found that male adolescent mice that had been exposed to LB exhibit significant deficits in contextual fear conditioning and synaptic connectivity in the hippocampus, which are not observed in females. This is linked to altered developmental refinement of connectivity, with LB severely impairing microglial-mediated synaptic pruning in the hippocampus of male and female pups on postnatal day 17 (P17), but not in adolescent P33 mice when levels of synaptic engulfment by microglia are substantially lower.

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Tardive dyskinesia (TD) is a hyperkinetic movement disorder that displays unusual involuntary movement along with orofacial dysfunction. It is predominantly associated with the long-term use of antipsychotic medications, particularly typical or first-generation antipsychotic drugs such as haloperidol. Oxidative stress, mitochondrial dysfunction, neuroinflammation, and apoptosis are major pathophysiological mechanisms of TD.

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Background: Paraoxonase 2 (PON2) and neuronal uncoupling proteins (UCP4 and UCP5) possess antioxidant, anti-apoptotic activities and minimize accumulation of reactive oxygen species in mitochondria. While age and sex are risk factors for several disorders that are linked with oxidative stress, no study has explored the age- and sex-dependent expression of PON2 isoforms, UCP4 and UCP5 in primate brain or identified a drug to activate UCP4 and UCP5 in vivo. Preclinical studies suggest that the peroxisome proliferator-activated receptor gamma agonist, pioglitazone (PIO), can be neuroprotective, although the mechanism responsible is unclear.

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Introduction: Huntington's disease (HD) is a progressive neurodegenerative disorder caused by an expansion in the CAG trinucleotide repeat in huntingtin (Htt) gene. The discovery of the HD-causing gene prompted the creation of new HD animal models, proving that mutations in the HD gene are linked to either loss of function of the wild-type (un-mutated) gene or toxic gain in the function of a mutated gene.

Areas Covered: Animal models of HD have led to an increased understanding of its pathogenesis and resulted in the discovery of new therapeutic targets/drugs.

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Animal models are used to better understand the various mechanisms involved in the pathogenesis of diseases and explore potential pathways that will aid in discovering therapeutic targets. 3-Nitropropionic Acid (3-NPA) is a neurotoxin used to induce Huntington's disease (HD)-like symptoms in experimental animals. The 3-NPA is a fungus toxin that impairs the complex II (succinate dehydrogenase) activity of the mitochondria and reduces ATP synthesis, leading to excessive production of free radicals resulting in the degeneration of GABAergic medium spiny neurons (MSNs) in the striatum.

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MicroRNAs (miRNAs) as therapeutic agents have attracted increasing interest in the past decade owing to their significant effectiveness in treating a wide array of ailments. These polymerases II-derived noncoding RNAs act through post-transcriptional controlling of different proteins and their allied pathways. Like other areas of medicine, researchers have utilized miRNAs for managing acute and chronic wounds.

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Mitochondrial dysfunction and oxidative stress contribute to the neuropathology of neurodegenerative disorders such as Parkinson's disease (PD). Paraoxonase-2 (PON2) is a mitochondrial protein that mitigates oxidative stress, enhances mitochondrial function and exhibits anti-inflammatory properties. Previously, we have documented sex-based variation in PON2 with higher brain PON2 expression in female (2-fold) as compared to male African green monkeys.

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Paraoxonase-2 (PON2) enhances mitochondria function and protects against oxidative stress. Stimulating its expression has therapeutic potential for diseases where oxidative stress plays a significant role in the pathology, such as Parkinson's disease. Clinical and preclinical evidence suggest that the anti-diabetic drug pioglitazone may provide neuroprotection in Parkinson's disease, Alzheimer's disease, and stroke, but the biochemical pathway(s) responsible has not been fully elucidated.

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Severe acute respiratory syndrome coronavirus-2 (SARS-CoV-2) known as coronavirus disease (COVID-19), emerged in Wuhan, China, in December 2019. On March 11, 2020, it was declared a global pandemic. As the world grapples with COVID-19 and the paucity of clinically meaningful therapies, attention has been shifted to modalities that may aid in immune system strengthening.

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The development of several neurodegenerative disorders, such as Parkinson's disease, has been linked with decreased mitochondrial performance, leading to oxidative stress as a result of increased production of reactive oxygen species (ROS). Previous studies have established that the mitochondrial enzyme, paraoxonase-2 (PON2), possesses potent antioxidant and anti-inflammatory properties, with its expression linked with lower ROS levels. The aim of this study was to explore the sex-based variations in the protein level of PON2 in different brain regions (striatum, hippocampus, occipital cortex, and dorsolateral prefrontal cortex) of African green monkeys.

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Article Synopsis
  • G-CSF (Granulocyte-colony stimulating factor) is a 19.6 kDa glycoprotein that plays a vital role in the growth and survival of neutrophil cells, crucial for the immune system.
  • It has been clinically used to treat low white blood cell counts due to chemotherapy, but recent research suggests it may also protect neurons and promote brain health by mobilizing stem cells and reducing inflammation.
  • The review aims to summarize G-CSF's neuroprotective mechanisms and potential clinical applications for neurodegenerative diseases like Alzheimer’s, Parkinson’s, and Huntington’s disease.
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Neuroinflammation is well established biomarker for the major neurodegenerative like Alzheimer's disease (AD) and Parkinson's disease (PD). Cytokines/chemokines excite phospholipase A2 and cyclooxygenases (COX), facilitating the release of arachidonic acid (AA) and docosahexaenoic acid (DHA) from membrane glycerophospholipids, in which the former is oxidized to produce pro-inflammatory eicosanoids (prostaglandins, leukotrienes and thromboxane's), which intensify the neuroinflammatory events in the brain. Similarly, resolvins and neuroprotectins are the metabolized products of docosahexaenoic acid, which exert an inhibitory effect on the production of eicosanoids.

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Neurodegenerative diseases represent some of the most devastating neurological disorders, characterized by progressive loss of the structure and function of neurons. Current therapy for neurodegenerative disorders is limited to symptomatic treatment rather than disease modifying interventions, emphasizing the desperate need for improved approaches. Abundant evidence indicates that impaired mitochondrial function plays a crucial role in pathogenesis of many neurodegenerative diseases and so biochemical factors in mitochondria are considered promising targets for pharmacological-based therapies.

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Article Synopsis
  • The text discusses the emerging potential of gene therapy and immunotherapy as treatments for Huntington's Disease (HD), highlighting interest in these approaches for modulating gene expression and immune activation.
  • It covers current research and trials focused on RNA and DNA therapies aimed at reducing mutant huntingtin protein, which is linked to HD, and notes the discovery of new therapeutic targets driven by better understanding of the disease's mechanisms.
  • The review emphasizes safety and efficacy, shifting towards disease-modifying therapies while outlining future directions for targeted gene and immunotherapy to address HD at both the genetic and protein levels.
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Coronavirus disease 2019 (COVID-19) is an unprecedented disease caused by highly pathogenic SARS-CoV-2 and characterized by extreme respiratory deterrence, pneumonia and immune damage. The phylogenetic analysis demonstrated the sequence similarity of SARS-CoV-2 with other SARS-like bat viruses. The primary source and intermediate host are not yet confirmed, although transmission from human to human is universally confirmed.

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Chronic fatigue syndrome (CFS) is a disorder characterized by persistent and relapsing fatigue along with long-lasting and debilitating fatigue, myalgia, cognitive impairment, and many other common symptoms. The present study was conducted to explore the protective effect of hemin on CFS in experimental mice. Male albino mice were subjected to stress-induced CFS in a forced swimming test apparatus for 21 days.

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Adenosine is a naturally occurring nucleoside and an essential component of the energy production and utilization systems of the body. Adenosine is formed by the degradation of adenosine-triphosphate (ATP) during energy-consuming processes. Adenosine regulates numerous physiological processes through activation of four subtypes of G-protein coupled membrane receptors viz.

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Alteration in neurotransmitters signaling in basal ganglia has been consistently shown to significantly contribute to the pathophysiological basis of Parkinson's disease and Huntington's disease. Dopamine is an important neurotransmitter which plays a critical role in coordinated body movements. Alteration in the level of brain dopamine and receptor radically contributes to irregular movements, glutamate mediated excitotoxic neuronal death and further leads to imbalance in the levels of other neurotransmitters viz.

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Epilepsy is one of the most prevalent neurological disorder affecting more than 50 million people worldwide. Numerous studies have suggested that an imbalance in glutamatergic (excitatory) and GABAergic (inhibitory) neurotransmitter system is one of the dominating pathophysiological mechanisms underlying the occurrence and progression of seizures. Further, this alteration in GABAergic and glutamatergic system disrupts the delicate balance of other neurotransmitters system in the brain.

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1-Methy-4-phenyl-1,2,3,6-tetrahydropyridine (MPTP) is a neurotoxin that selectively damages dopaminergic neurons in the substantia nigra pars compacta and induces Parkinson's like symptoms in rodents. Quercetin (QC) is a natural polyphenolic bioflavonoid with potent antioxidant and anti-inflammatory properties but lacks of clinical attraction due to low oral bioavailability. Piperine is a well established bioavailability enhancer used pre-clinically to improve the bioavailability of antioxidants (.

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One of the most intriguing features of the brain is its ability to be malleable, allowing it to adapt continually to changes in the environment. Specific neuronal activity patterns drive long-lasting increases or decreases in the strength of synaptic connections, referred to as long-term potentiation and long-term depression, respectively. Such phenomena have been described in a variety of model organisms, which are used to study molecular, structural, and functional aspects of synaptic plasticity.

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L-theanine has been documented to possess anti-oxidant, anti-inflammatory and neuroprotective potential in various animal models of neurological disorders. The present study was anticipated to investigate the effect of L-theanine against quinolinic acid induced motor deficits, oxido-nitrosative stress, neuro-inflammation and neurotransmitters alteration in rats. Rats were stereotaxically injected QA (200nmol/2µl saline; intrastriatal); bilaterally on 0 day and L-theanine (25 & 50mg/kg; p.

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