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Full-Text Articles in Geriatrics
Second Heart Field–Derived Cells Contribute To Angiotensin Ii–Mediated Ascending Aortopathies, Hisashi Sawada, Yuriko Katsumata, Hideyuki Higashi, Chen Zhang, Yanming Li, Stephanie Morgan, Lang H. Lee, Sasha A. Singh, Jeff Z. Chen, Michael K. Franklin, Jessica J. Moorleghen, Deborah A. Howatt, Debra L. Rateri, Ying H. Shen, Scott A. Lemaire, Masanori Aikawa, Mark W. Majesky, Hong S. Lu, Alan Daugherty
Second Heart Field–Derived Cells Contribute To Angiotensin Ii–Mediated Ascending Aortopathies, Hisashi Sawada, Yuriko Katsumata, Hideyuki Higashi, Chen Zhang, Yanming Li, Stephanie Morgan, Lang H. Lee, Sasha A. Singh, Jeff Z. Chen, Michael K. Franklin, Jessica J. Moorleghen, Deborah A. Howatt, Debra L. Rateri, Ying H. Shen, Scott A. Lemaire, Masanori Aikawa, Mark W. Majesky, Hong S. Lu, Alan Daugherty
Sanders-Brown Center on Aging Faculty Publications
BACKGROUND: The ascending aorta is a common location for aneurysm and dissection. This aortic region is populated by a mosaic of medial and adventitial cells that are embryonically derived from either the second heart field (SHF) or the cardiac neural crest. SHF-derived cells populate areas that coincide with the spatial specificity of thoracic aortopathies. The purpose of this study was to determine whether and how SHF-derived cells contribute to ascending aortopathies.
METHODS: Ascending aortic pathologies were examined in patients with sporadic thoracic aortopathies and angiotensin II (AngII)–infused mice. Ascending aortas without overt pathology from AngII-infused mice were subjected …
Therapeutic Treatment With The Anti-Inflammatory Drug Candidate Mw151 May Partially Reduce Memory Impairment And Normalizes Hippocampal Metabolic Markers In A Mouse Model Of Comorbid Amyloid And Vascular Pathology, David J. Braun, David K. Powell, Christopher J. Mclouth, Saktimayee M. Roy, D. Martin Watterson, Linda J. Van Eldik
Therapeutic Treatment With The Anti-Inflammatory Drug Candidate Mw151 May Partially Reduce Memory Impairment And Normalizes Hippocampal Metabolic Markers In A Mouse Model Of Comorbid Amyloid And Vascular Pathology, David J. Braun, David K. Powell, Christopher J. Mclouth, Saktimayee M. Roy, D. Martin Watterson, Linda J. Van Eldik
Neuroscience Faculty Publications
Alzheimer's disease (AD) is the leading cause of dementia in the elderly, but therapeutic options are lacking. Despite long being able to effectively treat the ill-effects of pathology present in various rodent models of AD, translation of these strategies to the clinic has so far been disappointing. One potential contributor to this situation is the fact that the vast majority of AD patients have other dementia-contributing comorbid pathologies, the most common of which are vascular in nature. This situation is modeled relatively infrequently in basic AD research, and almost never in preclinical studies. As part of our efforts to develop …