Literature DB >> 24434801

Imaging pericytes and capillary diameter in brain slices and isolated retinae.

Anusha Mishra1, Fergus M O'Farrell1, Clare Reynell2, Nicola B Hamilton2, Catherine N Hall2, David Attwell2.   

Abstract

The cerebral circulation is highly specialized, both structurally and functionally, and it provides a fine-tuned supply of oxygen and nutrients to active regions of the brain. Our understanding of blood flow regulation by cerebral arterioles has evolved rapidly. Recent work has opened new avenues in microvascular research; for example, it has been demonstrated that contractile pericytes found on capillary walls induce capillary diameter changes in response to neurotransmitters, suggesting that pericytes could have a role in neurovascular coupling. This concept is at odds with traditional models of brain blood flow regulation, which assume that only arterioles control cerebral blood flow. The investigation of mechanisms underlying neurovascular coupling at the capillary level requires a range of approaches, which involve unique technical challenges. Here we provide detailed protocols for the successful physiological and immunohistochemical study of pericytes and capillaries in brain slices and isolated retinae, allowing investigators to probe the role of capillaries in neurovascular coupling. This protocol can be completed within 6-8 h; however, immunohistochemical experiments may take 3-6 d.

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Year:  2014        PMID: 24434801     DOI: 10.1038/nprot.2014.019

Source DB:  PubMed          Journal:  Nat Protoc        ISSN: 1750-2799            Impact factor:   13.491


  37 in total

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2.  Regional differences in neurovascular coupling in rat brain as determined by fMRI and electrophysiology.

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3.  Cortical depth-specific microvascular dilation underlies laminar differences in blood oxygenation level-dependent functional MRI signal.

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Journal:  Proc Natl Acad Sci U S A       Date:  2010-08-09       Impact factor: 11.205

4.  Astroglial and vascular interactions of noradrenaline terminals in the rat cerebral cortex.

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Journal:  J Cereb Blood Flow Metab       Date:  1997-08       Impact factor: 6.200

5.  Bidirectional control of CNS capillary diameter by pericytes.

Authors:  Claire M Peppiatt; Clare Howarth; Peter Mobbs; David Attwell
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6.  Oxidative phosphorylation, not glycolysis, powers presynaptic and postsynaptic mechanisms underlying brain information processing.

Authors:  Catherine N Hall; Miriam C Klein-Flügge; Clare Howarth; David Attwell
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7.  Glial cells dilate and constrict blood vessels: a mechanism of neurovascular coupling.

Authors:  Monica R Metea; Eric A Newman
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8.  Are cerebral prostanoids of astroglial origin? Studies on the prostanoid forming system in developing rat brain and primary cultures of rat astrocytes.

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9.  Relaxation of retinal pericyte contractile tone through the nitric oxide-cyclic guanosine monophosphate pathway.

Authors:  I O Haefliger; A Zschauer; D R Anderson
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Review 2.  The pericyte microenvironment during vascular development.

Authors:  Laura B Payne; Huaning Zhao; Carissa C James; Jordan Darden; David McGuire; Sarah Taylor; James W Smyth; John C Chappell
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4.  Glutaric Acid Affects Pericyte Contractility and Migration: Possible Implications for GA-I Pathogenesis.

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Journal:  Mol Neurobiol       Date:  2019-05-18       Impact factor: 5.590

5.  Cerebral capillary velocimetry based on temporal OCT speckle contrast.

Authors:  Woo June Choi; Yuandong Li; Wan Qin; Ruikang K Wang
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6.  Imaging Pericytes and the Regulation of Cerebral Blood Flow.

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Review 7.  Advances in on-chip vascularization.

Authors:  Kristina Haase; Roger D Kamm
Journal:  Regen Med       Date:  2017-03-20       Impact factor: 3.806

8.  Bioelectric impact of pathological angiogenesis on vascular function.

Authors:  Donald G Puro; Ryohsuke Kohmoto; Yasushi Fujita; Thomas W Gardner; Dolly A Padovani-Claudio
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9.  Contractile pericytes determine the direction of blood flow at capillary junctions.

Authors:  Albert L Gonzales; Nicholas R Klug; Arash Moshkforoush; Jane C Lee; Frank K Lee; Bo Shui; Nikolaos M Tsoukias; Michael I Kotlikoff; David Hill-Eubanks; Mark T Nelson
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10.  Pericyte structure and distribution in the cerebral cortex revealed by high-resolution imaging of transgenic mice.

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