Literature DB >> 23102262

Pulmonary instillation of multi-walled carbon nanotubes promotes coronary vasoconstriction and exacerbates injury in isolated hearts.

Leslie C Thompson1, Chad R Frasier, Ruben C Sloan, Erin E Mann, Benjamin S Harrison, Jared M Brown, David A Brown, Christopher J Wingard.   

Abstract

The growing use of multi-walled carbon nanotubes (MWCNTs) across industry has increased human exposures. We tested the hypothesis that pulmonary instillation of MWCNTs would exacerbate cardiac ischaemia/reperfusion (I/R) injury. One day following intratracheal instillation of 1, 10 or 100 μg MWCNT in Sprague-Dawley rats, we used a Langendorff isolated heart model to examine cardiac I/R injury. In the 100 μg MWCNT group we report increased premature ventricular contractions at baseline and increased myocardial infarction. This was associated with increased endothelin-1 (ET-1) release and depression of coronary flow during early reperfusion. We also tested if isolated coronary vascular responses were affected by MWCNT instillation and found trends for enhanced coronary tone, which were dependent on ET-1, cyclooxygenase, thromboxane and Rho-kinase. We concluded that instillation of MWCNTs promoted cardiac injury and depressed coronary flow by invoking vasoconstrictive mechanisms involving ET-1, cyclooxygenase, thromboxane and Rho-kinase.

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Year:  2012        PMID: 23102262      PMCID: PMC4006938          DOI: 10.3109/17435390.2012.744858

Source DB:  PubMed          Journal:  Nanotoxicology        ISSN: 1743-5390            Impact factor:   5.913


  61 in total

1.  Endothelin release during ischaemia and reperfusion of isolated perfused rat hearts.

Authors:  F Brunner; E F du Toit; L H Opie
Journal:  J Mol Cell Cardiol       Date:  1992-11       Impact factor: 5.000

2.  Interlayer forces and ultralow sliding friction in multiwalled carbon nanotubes.

Authors:  A Kis; K Jensen; S Aloni; W Mickelson; A Zettl
Journal:  Phys Rev Lett       Date:  2006-07-11       Impact factor: 9.161

3.  Mast cells contribute to altered vascular reactivity and ischemia-reperfusion injury following cerium oxide nanoparticle instillation.

Authors:  Christopher J Wingard; Dianne M Walters; Brook L Cathey; Susana C Hilderbrand; Pranita Katwa; Sijie Lin; Pu Chun Ke; Ramakrishna Podila; Apparao Rao; Robert M Lust; Jared M Brown
Journal:  Nanotoxicology       Date:  2010-11-03       Impact factor: 5.913

4.  Short-term exercise preserves myocardial glutathione and decreases arrhythmias after thiol oxidation and ischemia in isolated rat hearts.

Authors:  Chad R Frasier; Ruben C Sloan; Phillip A Bostian; Michael D Gonzon; Jennifer Kurowicki; Steven J Lopresto; Ethan J Anderson; David A Brown
Journal:  J Appl Physiol (1985)       Date:  2011-09-22

5.  Decrease of endothelin receptor subtype ETB and release of COX-derived products contribute to endothelial dysfunction of porcine epicardial coronary arteries in left ventricular hypertrophy.

Authors:  Fanny Desjardins; Marie-Claude Aubin; Michel Carrier; Louis P Perrault
Journal:  J Cardiovasc Pharmacol       Date:  2005-06       Impact factor: 3.105

6.  Differential effects of oxidative stress on hepatic endothelial and Kupffer cell eicosanoid release in response to endothelin-1.

Authors:  Amel Karaa; Walid S Kamoun; Hong Xu; Jain Zhang; Mark G Clemens
Journal:  Microcirculation       Date:  2006-09       Impact factor: 2.628

Review 7.  Isolated heart perfusion according to Langendorff---still viable in the new millennium.

Authors:  Monika Skrzypiec-Spring; Bartosz Grotthus; Adam Szelag; Richard Schulz
Journal:  J Pharmacol Toxicol Methods       Date:  2006-05-26       Impact factor: 1.950

Review 8.  RhoA/Rho-kinase and vascular diseases: what is the link?

Authors:  Kenia Pedrosa Nunes; Christine S Rigsby; R Clinton Webb
Journal:  Cell Mol Life Sci       Date:  2010-07-29       Impact factor: 9.261

9.  Redox modification of ryanodine receptors underlies calcium alternans in a canine model of sudden cardiac death.

Authors:  Andriy E Belevych; Dmitry Terentyev; Serge Viatchenko-Karpinski; Radmila Terentyeva; Arun Sridhar; Yoshinori Nishijima; Lance D Wilson; Arturo J Cardounel; Kenneth R Laurita; Cynthia A Carnes; George E Billman; Sandor Gyorke
Journal:  Cardiovasc Res       Date:  2009-07-17       Impact factor: 10.787

Review 10.  Mechanisms underlying acute protection from cardiac ischemia-reperfusion injury.

Authors:  Elizabeth Murphy; Charles Steenbergen
Journal:  Physiol Rev       Date:  2008-04       Impact factor: 37.312
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  17 in total

1.  Ultrafine Particulate Matter Increases Cardiac Ischemia/Reperfusion Injury via Mitochondrial Permeability Transition Pore.

Authors:  Nathan A Holland; Chad R Fraiser; Ruben C Sloan; Robert B Devlin; David A Brown; Christopher J Wingard
Journal:  Cardiovasc Toxicol       Date:  2017-10       Impact factor: 3.231

2.  IL-33 modulates chronic airway resistance changes induced by multi-walled carbon nanotubes.

Authors:  Xiaojia Wang; Jonathan H Shannahan; Jared M Brown
Journal:  Inhal Toxicol       Date:  2014-02-06       Impact factor: 2.724

3.  Microvascular Dysfunction Following Multiwalled Carbon Nanotube Exposure Is Mediated by Thrombospondin-1 Receptor CD47.

Authors:  William Kyle Mandler; Timothy R Nurkiewicz; Dale W Porter; Eric E Kelley; Ivan Mark Olfert
Journal:  Toxicol Sci       Date:  2018-09-01       Impact factor: 4.849

4.  Cardiac Ischemia Reperfusion Injury Following Instillation of 20 nm Citrate-capped Nanosilver.

Authors:  N A Holland; D P Becak; Jonathan H Shannahan; J M Brown; S A Carratt; Lsv Winkle; K E Pinkerton; C M Wang; P Munusamy; Don R Baer; S J Sumner; T R Fennell; R M Lust; C J Wingard
Journal:  J Nanomed Nanotechnol       Date:  2015-10-01

Review 5.  New and revisited approaches to preserving the reperfused myocardium.

Authors:  Robert A Kloner; David A Brown; Marie Csete; Wangde Dai; James M Downey; Roberta A Gottlieb; Sharon L Hale; Jianru Shi
Journal:  Nat Rev Cardiol       Date:  2017-07-27       Impact factor: 32.419

6.  C₆₀ exposure augments cardiac ischemia/reperfusion injury and coronary artery contraction in Sprague Dawley rats.

Authors:  Leslie C Thompson; Rakhee N Urankar; Nathan A Holland; Achini K Vidanapathirana; Joshua E Pitzer; Li Han; Susan J Sumner; Anita H Lewin; Timothy R Fennell; Robert M Lust; Jared M Brown; Christopher J Wingard
Journal:  Toxicol Sci       Date:  2014-01-15       Impact factor: 4.849

7.  Vascular Tissue Contractility Changes Following Late Gestational Exposure to Multi-Walled Carbon Nanotubes or their Dispersing Vehicle in Sprague Dawley Rats.

Authors:  A K Vidanapathirana; L C Thompson; J Odom; N A Holland; S J Sumner; T R Fennell; J M Brown; C J Wingard
Journal:  J Nanomed Nanotechnol       Date:  2014-04-20

8.  Gestational nanomaterial exposures: microvascular implications during pregnancy, fetal development and adulthood.

Authors:  P A Stapleton
Journal:  J Physiol       Date:  2015-10-28       Impact factor: 5.182

9.  The effects of subacute inhaled multi-walled carbon nanotube exposure on signaling pathways associated with cholesterol transport and inflammatory markers in the vasculature of wild-type mice.

Authors:  Griffith Davis; JoAnn Lucero; Caitlin Fellers; Jacob D McDonald; Amie K Lund
Journal:  Toxicol Lett       Date:  2018-08-03       Impact factor: 4.372

10.  Airway Exposure to Modified Multi-walled Carbon Nanotubes Perturbs Cardiovascular Adenosinergic Signaling in Mice.

Authors:  Leslie C Thompson; Nicole L Sheehan; Dianne M Walters; Robert M Lust; Jared M Brown; Christopher J Wingard
Journal:  Cardiovasc Toxicol       Date:  2019-04       Impact factor: 3.231
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