Your search keyword '"Anusha Mishra"' showing total 9 results

1. Remyelination protects neurons from DLK-mediated neurodegeneration

Author

Greg J. Duncan, Sam D. Ingram, Katie Emberley, Jo Hill, Christian Cordano, Ahmed Abdelhak, Michael McCane, Jennifer E. Jenks, Nora Jabassini, Kirtana Ananth, Skylar J. Ferrara, Brittany Stedelin, Benjamin Sivyer, Sue A. Aicher, Thomas S. Scanlan, Trent A. Watkins, Anusha Mishra, Jonathan W. Nelson, Ari J. Green, and Ben Emery

Subjects

Science

Abstract

Abstract Chronic demyelination and oligodendrocyte loss deprive neurons of crucial support. It is the degeneration of neurons and their connections that drives progressive disability in demyelinating disease. However, whether chronic demyelination triggers neurodegeneration and how it may do so remain unclear. We characterize two genetic mouse models of inducible demyelination, one distinguished by effective remyelination and the other by remyelination failure and chronic demyelination. While both demyelinating lines feature axonal damage, mice with blocked remyelination have elevated neuronal apoptosis and altered microglial inflammation, whereas mice with efficient remyelination do not feature neuronal apoptosis and have improved functional recovery. Remyelination incapable mice show increased activation of kinases downstream of dual leucine zipper kinase (DLK) and phosphorylation of c-Jun in neuronal nuclei. Pharmacological inhibition or genetic disruption of DLK block c-Jun phosphorylation and the apoptosis of demyelinated neurons. Together, we demonstrate that remyelination is associated with neuroprotection and identify DLK inhibition as protective strategy for chronically demyelinated neurons.

Published

2024

2. Spatially mapped single-cell chromatin accessibility

Author

Casey A. Thornton, Ryan M. Mulqueen, Kristof A. Torkenczy, Andrew Nishida, Eve G. Lowenstein, Andrew J. Fields, Frank J. Steemers, Wenri Zhang, Heather L. McConnell, Randy L. Woltjer, Anusha Mishra, Kevin M. Wright, and Andrew C. Adey

Subjects

Science

Abstract

Spatial orientation of cells in an interconnected network is lost in high-throughput single-cell epigenomic assays. Here the authors present sciMAP-ATAC to produce spatially resolved single-cell ATAC-seq data.

Published

2021

3. Development of vegan meat flavour: A review on sources and techniques

Author

Prajyoti Kale, Anusha Mishra, and Uday S. Annapure

Subjects

Vegan, Yeast extract, Hydrolysed vegetable protein, Hydrolysis, Maillard reaction, Nutrition. Foods and food supply, TX341-641, Food processing and manufacture, TP368-456

Abstract

The inclination towards naturalness and ''clean label'' products amongst the consumers has encouraged the development of novel processes for the production of vegan meat flavour. Many basic investigations indicate that acid, enzymatic, or fermentation reactions can be used to produce specific flavour molecules or more complicated flavour formulations. This review summarises recent basic research and development on meat flavour by using different vegan sources. The combination of acid or enzymatic treatment or fermentation of raw materials with heat-induced food processes (e.g., extrusion) represents an elegant approach for generating meat flavour. The current review illustrates the different raw materials, techniques, and challenges in producing vegan meat flavour.

Published

2022

4. Editorial: The Neurovascular Unit as a Potential Biomarker and Therapeutic Target in Cerebrovascular Disease

Author

Shereen Nizari, Cheryl A. Hawkes, Yorito Hattori, and Anusha Mishra

Subjects

neurovascular unit (NVU), cerebrovascular disease, biomarker, cerebral blood flow (CBF), therapeutic target, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571

Published

2022

5. Increased 20-HETE Signaling Suppresses Capillary Neurovascular Coupling After Ischemic Stroke in Regions Beyond the Infarct

Author

Zhenzhou Li, Heather L. McConnell, Teresa L. Stackhouse, Martin M. Pike, Wenri Zhang, and Anusha Mishra

Subjects

neurovascular coupling, stroke, cerebral blood flow, capillaries, microvasculature, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571

Abstract

Neurovascular coupling, the process by which neuronal activity elicits increases in the local blood supply, is impaired in stroke patients in brain regions outside the infarct. Such impairment may contribute to neurological deterioration over time, but its mechanism is unknown. Using the middle cerebral artery occlusion (MCAO) model of stroke, we show that neuronal activity-evoked capillary dilation is reduced by ∼75% in the intact cortical tissue outside the infarct border. This decrease in capillary responsiveness was not explained by a decrease in local neuronal activity or a loss of vascular contractility. Inhibiting synthesis of the vasoconstrictive molecule 20-hydroxyeicosatetraenoic acid (20-HETE), either by inhibiting its synthetic enzyme CYP450 ω-hydroxylases or by increasing nitric oxide (NO), which is a natural inhibitor of ω-hydroxylases, rescued activity-evoked capillary dilation. The capillary dilation unmasked by inhibiting 20-HETE was dependent on PGE2 activation of endoperoxide 4 (EP4) receptors, a vasodilatory pathway previously identified in healthy animals. Cortical 20-HETE levels were increased following MCAO, in agreement with data from stroke patients. Inhibition of ω-hydroxylases normalized 20-HETE levels in vivo and increased cerebral blood flow in the peri-infarct cortex. These data identify 20-HETE-dependent vasoconstriction as a mechanism underlying capillary neurovascular coupling impairment after stroke. Our results suggest that the brain’s energy supply may be significantly reduced after stroke in regions previously believed to be asymptomatic and that ω-hydroxylase inhibition may restore healthy neurovascular coupling post-stroke.

Published

2021

6. Neurovascular Coupling in Development and Disease: Focus on Astrocytes

Author

Teresa L. Stackhouse and Anusha Mishra

Subjects

neurovascular unit, neurovascular coupling, astrocytes, cerebrovascular development, cerebrovascular dysfunction, stroke, Biology (General), QH301-705.5

Abstract

Neurovascular coupling is a crucial mechanism that matches the high energy demand of the brain with a supply of energy substrates from the blood. Signaling within the neurovascular unit is responsible for activity-dependent changes in cerebral blood flow. The strength and reliability of neurovascular coupling form the basis of non-invasive human neuroimaging techniques, including blood oxygen level dependent (BOLD) functional magnetic resonance imaging. Interestingly, BOLD signals are negative in infants, indicating a mismatch between metabolism and blood flow upon neural activation; this response is the opposite of that observed in healthy adults where activity evokes a large oversupply of blood flow. Negative neurovascular coupling has also been observed in rodents at early postnatal stages, further implying that this is a process that matures during development. This rationale is consistent with the morphological maturation of the neurovascular unit, which occurs over a similar time frame. While neurons differentiate before birth, astrocytes differentiate postnatally in rodents and the maturation of their complex morphology during the first few weeks of life links them with synapses and the vasculature. The vascular network is also incomplete in neonates and matures in parallel with astrocytes. Here, we review the timeline of the structural maturation of the neurovascular unit with special emphasis on astrocytes and the vascular tree and what it implies for functional maturation of neurovascular coupling. We also discuss similarities between immature astrocytes during development and reactive astrocytes in disease, which are relevant to neurovascular coupling. Finally, we close by pointing out current gaps in knowledge that must be addressed to fully elucidate the mechanisms underlying neurovascular coupling maturation, with the expectation that this may also clarify astrocyte-dependent mechanisms of cerebrovascular impairment in neurodegenerative conditions in which reduced or negative neurovascular coupling is noted, such as stroke and Alzheimer’s disease.

Published

2021

7. Therapeutic Genome Editing in Cardiovascular Diseases

Author

David M. German, MD, MPH, Shoukhrat Mitalipov, PhD, Anusha Mishra, PhD, and Sanjiv Kaul, MD

Subjects

Diseases of the circulatory (Cardiovascular) system, RC666-701

Abstract

Summary: A variety of genetic cardiovascular diseases may one day be curable using gene editing technology. Germline genome editing and correction promises to permanently remove monogenic cardiovascular disorders from the offspring and subsequent generations of affected families. Although technically feasible and likely to be ready for implementation in humans in the near future, this approach remains ethically controversial. Although currently beset by several technical challenges, and not yet past small animal models, somatic genome editing may also be useful for a variety of cardiovascular disorders. It potentially avoids ethical concerns about permanent editing of the germline and allows treatment of already diseased individuals. If technical challenges of Cas9-gRNA delivery (viral vector immune response, nonviral vector delivery) can be worked out, then CRISPR-Cas9 may have a significant place in the treatment of a wide variety of disorders in which partial or complete gene knockout is desired. However, CRISPR may not work for gene correction in the human heart because of low rates of homology directed repair. Off-target effects also remain a concern, although, thus far, small animal studies have been reassuring. Some of the therapies mentioned in this review may be ready for small clinical trials in the near future. Key Words: CRISPR, gene editing, germline gene correction

Published

2019

8. A Review of Oxylipins in Alzheimer’s Disease and Related Dementias (ADRD): Potential Therapeutic Targets for the Modulation of Vascular Tone and Inflammation

Author

Lynne H. Shinto, Jacob Raber, Anusha Mishra, Natalie Roese, and Lisa C. Silbert

Subjects

review, oxylipin, fatty acids, vascular dementia, Alzheimer’s disease, Microbiology, QR1-502

Abstract

There is now a convincing body of evidence from observational studies that the majority of modifiable Alzheimer’s disease and related dementia (ADRD) risk factors are vascular in nature. In addition, the co-existence of cerebrovascular disease with AD is more common than AD alone, and conditions resulting in brain ischemia likely promote detrimental effects of AD pathology. Oxylipins are a class of bioactive lipid mediators derived from the oxidation of long-chain polyunsaturated fatty acids (PUFAs) which act as modulators of both vascular tone and inflammation. In vascular cognitive impairment (VCI), there is emerging evidence that oxylipins may have both protective and detrimental effects on brain structure, cognitive performance, and disease progression. In this review, we focus on oxylipin relationships with vascular and inflammatory risk factors in human studies and animal models pertinent to ADRD. In addition, we discuss future research directions with the potential to impact the trajectory of ADRD risk and disease progression.

Published

2022

9. Predatory habits of Lutzia (Metalutzia) fuscana (Wiedmann) (Diptera: Culicidae) in the arid environments of Jodhpur, western Rajasthan, India

Author

Himmat Singh, Robin Marwal, and Anusha Mishra

Subjects

Lutzia (Metalutzia) fuscana, predatory, biological control, desert, Zoology, QL1-991

Abstract

The stable breeding of Lutzia (Metalutzia) fuscana was recorded form different locations of Indian Desert the "Thar" for the first time. The species being predatory in its larval form was investigated for evaluation of its biological control aspect in the desert setup where breeding sites and prey species are limited. Though its predatory habit is established yet using it as biological controlling agent was not found promising due to untargeted approach due to unlimited outdoor breeding places in sub-humid climatic conditions in rest of India. Whereas in desert due to limited water sources, mosquito vectors share the available breeding niche this increases possibility of targeted biological control using predatory species. Laboratory experiments on predatory habit of Lutzia (Metalutzia) fuscana showed that it preferred Aedes aegypti larvae most (88.5%), Anopheles stephensi (47.5%) and Culex quinquefasciatus larvae (39.0%). Average consumption of daily larvae is 18.89 larvae/day. If colonized properly and released in controlled conditions they can be useful in controlling of socially protected and unattended breeding containers resulting reduction in mosquito population.

Published

2014