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6. FDA-approved cannabidiol [Epidiolex®] alleviates Gulf War Illness-linked cognitive and mood dysfunction, hyperalgesia, neuroinflammatory signaling, and declined neurogenesis.

Author

Kodali, Maheedhar, Madhu, Leelavathi N., Kolla, Venkata Sai Vashishta, Attaluri, Sahithi, Huard, Charles, Somayaji, Yogish, Shuai, Bing, Jordan, Chase, Rao, Xiaolan, Shetty, Sanath, and Shetty, Ashok K.

Subjects
LABORATORY rats, PERSIAN Gulf syndrome, CANNABIDIOL, HYPERALGESIA, PYRIN (Protein), ASSOCIATIVE memory (Psychology), RECOGNITION (Psychology)
Abstract

Background: Chronic Gulf War Illness (GWI) is characterized by cognitive and mood impairments, as well as persistent neuroinflammation and oxidative stress. This study aimed to investigate the efficacy of Epidiolex®, a Food and Drug Administration (FDA)-approved cannabidiol (CBD), in improving brain function in a rat model of chronic GWI. Methods: Six months after exposure to low doses of GWI-related chemicals [pyridostigmine bromide, N,N-diethyl-meta-toluamide (DEET), and permethrin (PER)] along with moderate stress, rats with chronic GWI were administered either vehicle (VEH) or CBD (20 mg/kg, oral) for 16 weeks. Neurobehavioral tests were conducted on 11 weeks after treatment initiation to evaluate the performance of rats in tasks related to associative recognition memory, object location memory, pattern separation, and sucrose preference. The effect of CBD on hyperalgesia was also examined. The brain tissues were processed for immunohistochemical and molecular studies following behavioral tests. Results: GWI rats treated with VEH exhibited impairments in all cognitive tasks and anhedonia, whereas CBD-treated GWI rats showed improvements in all cognitive tasks and no anhedonia. Additionally, CBD treatment alleviated hyperalgesia in GWI rats. Analysis of hippocampal tissues from VEH-treated rats revealed astrocyte hypertrophy and increased percentages of activated microglia presenting NOD-, LRR- and pyrin domain-containing protein 3 (NLRP3) complexes as well as elevated levels of proteins involved in NLRP3 inflammasome activation and Janus kinase/signal transducers and activators of the transcription (JAK/STAT) signaling. Furthermore, there were increased concentrations of proinflammatory and oxidative stress markers along with decreased neurogenesis. In contrast, the hippocampus from CBD-treated GWI rats displayed reduced levels of proteins mediating the activation of NLRP3 inflammasomes and JAK/STAT signaling, normalized concentrations of proinflammatory cytokines and oxidative stress markers, and improved neurogenesis. Notably, CBD treatment did not alter the concentration of endogenous cannabinoid anandamide in the hippocampus. Conclusions: The use of an FDA-approved CBD (Epidiolex®) has been shown to effectively alleviate cognitive and mood impairments as well as hyperalgesia associated with chronic GWI. Importantly, the improvements observed in rats with chronic GWI in this study were attributed to the ability of CBD to significantly suppress signaling pathways that perpetuate chronic neuroinflammation. [ABSTRACT FROM AUTHOR]

Published
2024
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7. Intranasally Administered EVs from hiPSC-derived NSCs Alter the Transcriptomic Profile of Activated Microglia and Conserve Brain Function in an Alzheimer's Model

Author

Madhu, Leelavathi N, primary, Kodali, Maheedhar, additional, Upadhya, Raghavendra, additional, Rao, Shama, additional, Shuai, Bing, additional, Somayaji, Yogish, additional, Attaluri, Sahithi, additional, Kirmani, Maha, additional, Gupta, Shreyan, additional, Maness, Nathaniel, additional, Rao, Xiaolan, additional, Cai, James, additional, and Shetty, Ashok, additional

Published
2024
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8. Transient CSF1R Inhibition in the Early Stage of AD Retains Homeostatic Microglia with Reduced Inflammasomes and Increased autophagy in the 5XFAD Model

Author

Kodali, Maheedhar, primary, Gonzalez, Jenny J, additional, Oake, Chris, additional, Huard, Charles, additional, Somayaji, Yogish, additional, Shuai, Bing, additional, Madhu, Leelavathi N, additional, Attaluri, Sahithi, additional, Rao, Shama, additional, Shankar, Goutham, additional, Panda, Prashanta K, additional, Hering, Catherine, additional, Babu, Roshni S, additional, and Shetty, Ashok K, additional

Published
2023
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12. Intranasally administered extracellular vesicles from human induced pluripotent stem cell-derived neural stem cells quickly incorporate into neurons and microglia in 5xFAD mice

Author

Attaluri, Sahithi, primary, Jaimes Gonzalez, Jenny, additional, Kirmani, Maha, additional, Vogel, Andrew D., additional, Upadhya, Raghavendra, additional, Kodali, Maheedhar, additional, Madhu, Leelavathi N., additional, Rao, Shama, additional, Shuai, Bing, additional, Babu, Roshni S., additional, Huard, Charles, additional, and Shetty, Ashok K., additional

Published
2023
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13. A single intranasal dose of human mesenchymal stem cell-derived extracellular vesicles after traumatic brain injury eases neurogenesis decline, synapse loss, and BDNF-ERK-CREB signaling

Author

Kodali, Maheedhar, primary, Madhu, Leelavathi N., additional, Reger, Roxanne L., additional, Milutinovic, Bojana, additional, Upadhya, Raghavendra, additional, Attaluri, Sahithi, additional, Shuai, Bing, additional, Shankar, Goutham, additional, and Shetty, Ashok K., additional

Published
2023
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15. Oral Nano-Curcumin in a Model of Chronic Gulf War Illness Alleviates Brain Dysfunction with Modulation of Oxidative Stress, Mitochondrial Function, Neuroinflammation, Neurogenesis, and Gene Expression

Author

Attaluri, Sahithi, primary, Arora, Meenakshi, primary, Madhu, Leelavathi N, primary, Kodali, Maheedhar, primary, Shuai, Bing, primary, Melissari, Laila, primary, Upadhya, Raghavendra, primary, Rao, Xiaolan, primary, Bates, Adrian, primary, Mitra, Eeshika, primary, Ghahfarouki, Keyhan R, primary, Ravikumar, M. N. V, primary, and Shetty, Ashok K, primary

Published
2022
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18. Extracellular vesicles from human iPSC‐derived neural stem cells: miRNA and protein signatures, and anti‐inflammatory and neurogenic properties

Author

Upadhya, Raghavendra, primary, Madhu, Leelavathi N., additional, Attaluri, Sahithi, additional, Gitaí, Daniel Leite Góes, additional, Pinson, Marisa R, additional, Kodali, Maheedhar, additional, Shetty, Geetha, additional, Zanirati, Gabriele, additional, Kumar, Smrithi, additional, Shuai, Bing, additional, Weintraub, Susan T, additional, and Shetty, Ashok K., additional

Published
2020
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19. Monosodium luminol reinstates redox homeostasis, improves cognition, mood and neurogenesis, and alleviates neuro- and systemic inflammation in a model of Gulf War Illness

Author

Shetty, Ashok K., primary, Attaluri, Sahithi, additional, Kodali, Maheedhar, additional, Shuai, Bing, additional, Shetty, Geetha A., additional, Upadhya, Dinesh, additional, Hattiangady, Bharathi, additional, Madhu, Leelavathi N., additional, Upadhya, Raghavendra, additional, Bates, Adrian, additional, and Rao, Xiaolan, additional

Published
2020
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20. Intranasally Administered Human MSC-Derived Extracellular Vesicles Pervasively Incorporate into Neurons and Microglia in both Intact and Status Epilepticus Injured Forebrain

Author

Kodali, Maheedhar, primary, Castro, Olagide W., additional, Kim, Dong-Ki, additional, Thomas, Alicia, additional, Shuai, Bing, additional, Attaluri, Sahithi, additional, Upadhya, Raghavendra, additional, Gitai, Daniel, additional, Madhu, Leelavathi N., additional, Prockop, Darwin J., additional, and Shetty, Ashok K., additional

Published
2019
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22. A Model of Chronic Temporal Lobe Epilepsy Presenting Constantly Rhythmic and Robust Spontaneous Seizures, Co-morbidities and Hippocampal Neuropathology

Author

Upadhya, Dinesh, primary, Kodali, Maheedhar, primary, Gitai, Daniel, primary, Castro, Olagide W, primary, Zanirati, Gabriele, primary, Upadhya, Raghavendra, primary, Attaluri, Sahithi, primary, Mitra, Eeshika, primary, Shuai, Bing, primary, Hattiangady, Bharathi, primary, and Shetty, Ashok K, primary

Published
2019
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23. Wwox deletion leads to reduced GABA-ergic inhibitory interneuron numbers and activation of microglia and astrocytes in mouse hippocampus

Author

Hussain, Tabish, primary, Kil, Hyunsuk, additional, Hattiangady, Bharathi, additional, Lee, Jaeho, additional, Kodali, Maheedhar, additional, Shuai, Bing, additional, Attaluri, Sahithi, additional, Takata, Yoko, additional, Shen, Jianjun, additional, Abba, Martin C., additional, Shetty, Ashok K., additional, and Aldaz, C. Marcelo, additional

Published
2019
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24. Human induced pluripotent stem cell-derived MGE cell grafting after status epilepticus attenuates chronic epilepsy and comorbidities via synaptic integration

Author

Upadhya, Dinesh, primary, Hattiangady, Bharathi, additional, Castro, Olagide W., additional, Shuai, Bing, additional, Kodali, Maheedhar, additional, Attaluri, Sahithi, additional, Bates, Adrian, additional, Dong, Yi, additional, Zhang, Su-Chun, additional, Prockop, Darwin J., additional, and Shetty, Ashok K., additional

Published
2018
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25. Chronic Oxidative Stress, Mitochondrial Dysfunction, Nrf2 Activation and Inflammation in the Hippocampus Accompany Heightened Systemic Inflammation and Oxidative Stress in an Animal Model of Gulf War Illness

Author

Shetty, Geetha A., primary, Hattiangady, Bharathi, additional, Upadhya, Dinesh, additional, Bates, Adrian, additional, Attaluri, Sahithi, additional, Shuai, Bing, additional, Kodali, Maheedhar, additional, and Shetty, Ashok K., additional

Published
2017
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26. Intranasally Administered Human MSC-Derived Extracellular Vesicles Pervasively Incorporate into Neurons and Microglia in both Intact and Status Epilepticus Injured Forebrain.

Author

Kodali, Maheedhar, Castro, Olagide W., Kim, Dong-Ki, Thomas, Alicia, Shuai, Bing, Attaluri, Sahithi, Upadhya, Raghavendra, Gitai, Daniel, Madhu, Leelavathi N., Prockop, Darwin J., and Shetty, Ashok K.

Subjects
STATUS epilepticus, PROSENCEPHALON, NEURONS, MICROGLIA, MESENCHYMAL stem cells
Abstract

Extracellular vesicles (EVs) derived from human bone marrow mesenchymal stem cells (hMSCs) have great promise as biologics to treat neurological and neurodegenerative conditions due to their robust antiinflammatory and neuroprotective properties. Besides, intranasal (IN) administration of EVs has caught much attention because the procedure is noninvasive, amenable for repetitive dispensation, and leads to a quick penetration of EVs into multiple regions of the forebrain. Nonetheless, it is unknown whether brain injury-induced signals are essential for the entry of IN-administered EVs into different brain regions. Therefore, in this study, we investigated the distribution of IN-administered hMSC-derived EVs into neurons and microglia in the intact and status epilepticus (SE) injured rat forebrain. Ten billion EVs labeled with PKH26 were dispensed unilaterally into the left nostril of naïve rats, and rats that experienced two hours of kainate-induced SE. Six hours later, PKH26 + EVs were quantified from multiple forebrain regions using serial brain sections processed for different neural cell markers and confocal microscopy. Remarkably, EVs were seen bilaterally in virtually all regions of intact and SE-injured forebrain. The percentage of neurons incorporating EVs were comparable for most forebrain regions. However, in animals that underwent SE, a higher percentage of neurons incorporated EVs in the hippocampal CA1 subfield and the entorhinal cortex, the regions that typically display neurodegeneration after SE. In contrast, the incorporation of EVs by microglia was highly comparable in every region of the forebrain measured. Thus, unilateral IN administration of EVs is efficient for delivering EVs bilaterally into neurons and microglia in multiple regions in the intact or injured forebrain. Furthermore, incorporation of EVs by neurons is higher in areas of brain injury, implying that injury-related signals likely play a role in targeting of EVs into neurons, which may be beneficial for EV therapy in various neurodegenerative conditions including traumatic brain injury, stroke, multiple sclerosis, and Alzheimer's disease. [ABSTRACT FROM AUTHOR]

Published
2020
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27. Residual Microglia Following Short-term PLX5622 Treatment in 5xFAD Mice Exhibit Diminished NLRP3 Inflammasome and mTOR Signaling, and Enhanced Autophagy.

Author

Kodali M, Madhu LN, Somayaji Y, Attaluri S, Huard C, Panda PK, Shankar G, Rao S, Shuai B, Gonzalez JJ, Oake C, Hering C, Babu RS, Kotian S, and Shetty AK

Abstract

Chronic neuroinflammation represents a prominent hallmark of Alzheimer's disease (AD). While moderately activated microglia are pivotal in clearing amyloid beta (Aβ), hyperactivated microglia perpetuate neuroinflammation. Prior investigations have indicated that the elimination of ∼80% of microglia through a month-long inhibition of the colony-stimulating factor 1 receptor (CSF1R) during the advanced stage of neuroinflammation in 5xFamilial AD (5xFAD) mice mitigates synapse loss and neurodegeneration without impacting Aβ levels. Furthermore, prolonged CSF1R inhibition diminished the development of parenchymal plaques. Nonetheless, the immediate effects of short-term CSF1R inhibition during the early stages of neuroinflammation on residual microglial phenotype or metabolic fitness are unknown. Therefore, we investigated the effects of 10-day CSF1R inhibition in three-month-old female 5xFAD mice, a stage characterized by the onset of neuroinflammation and minimal Aβ plaques. We observed ∼65% microglia depletion in the hippocampus and cerebral cortex. The leftover microglia demonstrated a noninflammatory phenotype, with highly branched and ramified processes and reduced NOD-, LRR-, and pyrin domain-containing protein 3 (NLRP3) inflammasome complexes. Moreover, plaque-associated microglia were reduced in number with diminished Clec7a (dectin-1) expression. Additionally, both microglia and neurons displayed reduced mechanistic target of rapamycin (mTOR) signaling and autophagy. Biochemical assays validated the inhibition of NLRP3 inflammasome activation, decreased mTOR signaling, and enhanced autophagy. However, short-term CSF1R inhibition did not influence Aβ plaques, soluble Aβ-42 levels, or hippocampal neurogenesis. Thus, short-term CSF1R inhibition during the early stages of neuroinflammation in 5xFAD mice promotes the retention of homeostatic microglia with diminished inflammasome activation and mTOR signaling, alongside increased autophagy.

Published
2024
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28. Intranasally Administered EVs from hiPSC-derived NSCs Alter the Transcriptomic Profile of Activated Microglia and Conserve Brain Function in an Alzheimer's Model.

Author

Madhu LN, Kodali M, Upadhya R, Rao S, Shuai B, Somayaji Y, Attaluri S, Kirmani M, Gupta S, Maness N, Rao X, Cai J, and Shetty AK

Abstract

Antiinflammatory extracellular vesicles (EVs) derived from human induced pluripotent stem cell (hiPSC)-derived neural stem cells (NSCs) hold promise as a disease-modifying biologic for Alzheimer's disease (AD). This study directly addressed this issue by examining the effects of intranasal administrations of hiPSC-NSC-EVs to 3-month-old 5xFAD mice. The EVs were internalized by all microglia, which led to reduced expression of multiple genes associated with disease-associated microglia, inflammasome, and interferon-1 signaling. Furthermore, the effects of hiPSC-NSC-EVs persisted for two months post-treatment in the hippocampus, evident from reduced microglial clusters, inflammasome complexes, and expression of proteins and/or genes linked to the activation of inflammasomes, p38/mitogen-activated protein kinase, and interferon-1 signaling. The amyloid-beta (Aβ) plaques, Aβ-42, and phosphorylated-tau concentrations were also diminished, leading to better cognitive and mood function in 5xFAD mice. Thus, early intervention with hiPSC-NSC-EVs in AD may help maintain better brain function by restraining the progression of adverse neuroinflammatory signaling cascades.

Published
2024
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