Krystal Nizar scite author profile

Identification of the cellular players and molecular messengers that communicate neuronal activity to the vasculature driving cerebral hemodynamics is important for (1) the basic understanding of cerebrovascular regulation and (2) interpretation of functional Magnetic Resonance Imaging (fMRI) signals. Using a combination of optogenetic stimulation and 2-photon imaging in mice, we demonstrate that selective activation of cortical excitation and inhibition elicits distinct vascular responses and identify the vasoconstrictive mechanism as Neuropeptide Y (NPY) acting on Y1 receptors. The latter implies that task-related negative Blood Oxygenation Level Dependent (BOLD) fMRI signals in the cerebral cortex under normal physiological conditions may be mainly driven by the NPY-positive inhibitory neurons. Further, the NPY-Y1 pathway may offer a potential therapeutic target in cerebrovascular disease.DOI: http://dx.doi.org/10.7554/eLife.14315.001

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In vivoStimulus-Induced Vasodilation Occurs without IP₃Receptor Activation and May Precede Astrocytic Calcium Increase

Nizar

et al. 2013

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Calcium-dependent release of vasoactive gliotransmitters is widely assumed to trigger vasodilation associated with rapid increases in neuronal activity. Inconsistent with this hypothesis, intact stimulus-induced vasodilation was observed in inositol 1,4,5-triphosphate (IP3) type-2 receptor (R2) knockout (KO) mice, in which the primary mechanism of astrocytic calcium increase – the release of calcium from intracellular stores following activation of an IP3-dependent pathway – is lacking. Further, our results in wild type (WT) mice indicate that in vivo onset of astrocytic calcium increase in response to sensory stimulus could be considerably delayed relative to the simultaneously measured onset of arteriolar dilation. Delayed calcium increases in WT mice were observed in both astrocytic cell bodies and perivascular endfeet. Thus, astrocytes may not play a role in the initiation of blood flow response, at least not via calcium-dependent mechanisms. Moreover, an increase in astrocytic intracellular calcium was not required for normal vasodilation in the IP3R2-KO animals.

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Frontiers in Optical Imaging of Cerebral Blood Flow and Metabolism

Devor

Sakadžić

Srinivasan

et al. 2012

J Cereb Blood Flow Metab

139

133

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In vivo optical imaging of cerebral blood flow (CBF) and metabolism did not exist 50 years ago. While point optical fluorescence and absorption measurements of cellular metabolism and hemoglobin concentrations had already been introduced by then, point blood flow measurements appeared only 40 years ago. The advent of digital cameras has significantly advanced two-dimensional optical imaging of neuronal, metabolic, vascular, and hemodynamic signals. More recently, advanced laser sources have enabled a variety of novel three-dimensional high-spatial-resolution imaging approaches. Combined, as we discuss here, these methods are permitting a multifaceted investigation of the local regulation of CBF and metabolism with unprecedented spatial and temporal resolution. Through multimodal combination of these optical techniques with genetic methods of encoding optical reporter and actuator proteins, the future is bright for solving the mysteries of neurometabolic and neurovascular coupling and translating them to clinical utility.

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Age-Specific Prevalence of Hoarding and Obsessive Compulsive Disorder: A Population-Based Study

Cath

Nizar

Boomsma

et al. 2017

The American Journal of Geriatric Psychiatry

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Objectives Little is known about the age-specific prevalence of hoarding and obsessive compulsive (OC) symptoms, particularly in older age groups. The objectives of this study were to estimate the age-specific prevalence, severity and relationships between hoarding and OC symptoms in males and females using a large population-based sample. Methods We assessed the age-specific prevalence rates of hoarding disorder (HD) and obsessive compulsive disorder (OCD) in males and females (at various age ranges between 15–97 years) from the Netherlands Twins Register; n=15,194. Provisional HD and OCD diagnoses were made according to DSM-5 criteria utilizing self-report measures. We also assessed hoarding and OC symptom severity in the various age groups, and explored specific hoarding and OC symptom patterns (e.g., difficulty discarding, excessive acquisition, clutter, checking, washing, perfectionism and obsessions) with age. Results Prevalence of provisional HD diagnoses (2.12%) increased linearly by 20% with every 5 years of age (z = 13.8, p < 0.0001) and did not differ between males and females. Provisional OCD diagnoses were most common in younger individuals and in individuals over age 65. Co-occurring OCD increased hoarding symptom severity (coefficient = 4.5, SE = 0.2, 95% CI = 4.1 to 4.9, t=22.0, p<0.0001). Difficulty discarding for HD and checking behaviors for OCD appeared to drive most of the increase in these diagnoses in older ages. Conclusions Increased prevalence and severity of HD with age appears to be primarily driven by difficulties with discarding. Increases in OCD prevalence with older age were unexpected, and of potential clinical relevance.

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The roadmap for estimation of cell-type-specific neuronal activity from non-invasive measurements

Uhlířová

Kılıç

Tian

et al. 2016

Phil. Trans. R. Soc. B

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The computational properties of the human brain arise from an intricate interplay between billions of neurons connected in complex networks. However, our ability to study these networks in healthy human brain is limited by the necessity to use non-invasive technologies. This is in contrast to animal models where a rich, detailed view of cellular-level brain function with cell-type-specific molecular identity has become available due to recent advances in microscopic optical imaging and genetics. Thus, a central challenge facing neuroscience today is leveraging these mechanistic insights from animal studies to accurately draw physiological inferences from non-invasive signals in humans. On the essential path towards this goal is the development of a detailed ‘bottom-up’ forward model bridging neuronal activity at the level of cell-type-specific populations to non-invasive imaging signals. The general idea is that specific neuronal cell types have identifiable signatures in the way they drive changes in cerebral blood flow, cerebral metabolic rate of O 2 (measurable with quantitative functional Magnetic Resonance Imaging), and electrical currents/potentials (measurable with magneto/electroencephalography). This forward model would then provide the ‘ground truth’ for the development of new tools for tackling the inverse problem—estimation of neuronal activity from multimodal non-invasive imaging data. This article is part of the themed issue ‘Interpreting BOLD: a dialogue between cognitive and cellular neuroscience’.

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In Vivo Alterations in Calcium Buffering Capacity in Transgenic Mouse Model of Synucleinopathy

Reznichenko¹,

Cheng²,

Nizar³

et al. 2012

Journal of Neuroscience

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Abnormal accumulation of α-synuclein is centrally involved in the pathogenesis of many disorders with Parkinsonism and dementia. Previous in vitro studies suggest that α-synuclein dysregulates intracellular calcium. However, it is unclear whether these alterations occur in vivo. For this reason, we investigated calcium dynamics in transgenic mice expressing human WT α-synuclein using two-photon microscopy. We imaged spontaneous and stimulus-induced neuronal activity in the barrel cortex. Transgenic mice exhibited augmented, long-lasting calcium transients characterized by considerable deviation from the exponential decay. The most evident pathology was observed in response to a repetitive stimulation in which subsequent stimuli were presented before relaxation of calcium signal to the baseline. These alterations were detected in the absence of significant increase in neuronal spiking response compared with age-matched controls, supporting the possibility that α-synuclein promoted alterations in calcium dynamics via interference with intracellular buffering mechanisms. The characteristic shape of calcium decay and augmented response during repetitive stimulation can serve as in vivo imaging biomarkers in this model of neurodegeneration, to monitor progression of the disease and screen candidate treatment strategies.

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Mapping the Spatiotemporal Dynamics of Calcium Signaling in Cellular Neural Networks Using Optical Flow

Buibas

Nizar

et al. 2010

Ann Biomed Eng

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An optical flow gradient algorithm was applied to spontaneously forming networks of neurons and glia in culture imaged by fluorescence optical microscopy in order to map functional calcium signaling with single pixel resolution. Optical flow estimates the direction and speed of motion of objects in an image between subsequent frames in a recorded digital sequence of images (i.e., a movie). Computed vector field outputs by the algorithm were able to track the spatiotemporal dynamics of calcium signaling patterns. We begin by briefly reviewing the mathematics of the optical flow algorithm, and then describe how to solve for the displacement vectors and how to measure their reliability. We then compare computed flow vectors with manually estimated vectors for the progression of a calcium signal recorded from representative astrocyte cultures. Finally, we applied the algorithm to preparations of primary astrocytes and hippocampal neurons and to the rMC-1 Muller glial cell line in order to illustrate the capability of the algorithm for capturing different types of spatiotemporal calcium activity. We discuss the imaging requirements, parameter selection and threshold selection for reliable measurements, and offer perspectives on uses of the vector data.

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Similar Outcomes in Treating Major Depressive Disorder With 10 Hz Repetitive Transcranial Magnetic Stimulation (rTMS) Versus Intermittent Theta Burst Stimulation (iTBS): A Naturalistic Observational Study

Spitz

Eyck

Nizar

et al. 2022

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Background: Results reported in the existing literature have shown intermittent theta burst stimulation (iTBS) to be noninferior to 10 Hz repetitive transcranial magnetic stimulation (rTMS) in treating major depressive disorder (MDD) when targeted at the left dorsolateral prefrontal cortex. The goal of this naturalistic observational study was to further explore potential differences between these 2 treatment modalities in treating depression in a real-world cohort. Methods: The participants were 105 patients, 18 years of age or older with a diagnosis of MDD who received standard clinical 10 Hz rTMS or iTBS treatment between 2016 and 2020. Clinical outcomes of depression treatment were assessed on the basis of changes in scores on the Patient Health Questionnaire-9 and on the Montgomery-Åsberg Depression Rating Scale. Results: Reduction in depression symptoms was measured with the Patient Health Questionnaire-9 and Montgomery-Åsberg Depression Rating Scale from baseline to end of treatment, and no discernible differences in percent change, response, remission, or minimum clinically important difference were found between the 10 Hz rTMS and iTBS treatment groups. Conclusions: Findings in an observational, real-world clinical sample showed no significant differences in outcomes between 10 Hz rTMS and iTBS targeted at the left dorsolateral prefrontal cortex in the treatment of MDD. Because of the shorter treatment time involved, the choice of iTBS may reduce hospital exposure and increase savings and the treatment capacity of clinics without sacrificing effectiveness.

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Krystal Nizar

Cell type specificity of neurovascular coupling in cerebral cortex

In vivoStimulus-Induced Vasodilation Occurs without IP₃Receptor Activation and May Precede Astrocytic Calcium Increase

Frontiers in Optical Imaging of Cerebral Blood Flow and Metabolism

Age-Specific Prevalence of Hoarding and Obsessive Compulsive Disorder: A Population-Based Study

The roadmap for estimation of cell-type-specific neuronal activity from non-invasive measurements

In Vivo Alterations in Calcium Buffering Capacity in Transgenic Mouse Model of Synucleinopathy

Mapping the Spatiotemporal Dynamics of Calcium Signaling in Cellular Neural Networks Using Optical Flow

Similar Outcomes in Treating Major Depressive Disorder With 10 Hz Repetitive Transcranial Magnetic Stimulation (rTMS) Versus Intermittent Theta Burst Stimulation (iTBS): A Naturalistic Observational Study

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Krystal Nizar

Cell type specificity of neurovascular coupling in cerebral cortex

In vivoStimulus-Induced Vasodilation Occurs without IP3Receptor Activation and May Precede Astrocytic Calcium Increase

Frontiers in Optical Imaging of Cerebral Blood Flow and Metabolism

Age-Specific Prevalence of Hoarding and Obsessive Compulsive Disorder: A Population-Based Study

The roadmap for estimation of cell-type-specific neuronal activity from non-invasive measurements

In Vivo Alterations in Calcium Buffering Capacity in Transgenic Mouse Model of Synucleinopathy

Mapping the Spatiotemporal Dynamics of Calcium Signaling in Cellular Neural Networks Using Optical Flow

Similar Outcomes in Treating Major Depressive Disorder With 10 Hz Repetitive Transcranial Magnetic Stimulation (rTMS) Versus Intermittent Theta Burst Stimulation (iTBS): A Naturalistic Observational Study

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Resources

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In vivoStimulus-Induced Vasodilation Occurs without IP₃Receptor Activation and May Precede Astrocytic Calcium Increase