Abstract

The major goals of this research proposal are to describe and analyze cardiovascular control mechanisms with particular emphasis on the autonomic nervous system in normal healthy conscious animals, instrumented for direct and instantaneous measurements and radiotelemetry of coronary and regional blood flows and vascular resistances, ventricular function and myocardial contractility. Miniature pressure gauges will be implanted in the left and right ventricles and aorta, ultrasonic dimension transducers will be opposed on the endocardial surfaces of the left ventricle and Doppler ultrasonic or electromagnetic flow probes will be placed on the ascending aorta, coronary, mesenteric, renal and iliac arteries. In order to achieve these goals several specific interlocking groups of projects are planned. First of all, the afferent limb of the autonomic nervous system controlling the circulation will be examined, e.g., regulation by arterial baroreceptors, chemoreceptors, pulmonary inflation receptors, and low pressure vagal afferents. Secondly efferent autonomic control of ventricular performance, the coronary circulation, and the regional circulations will be studied. Thirdly, autonomic control during exercise will be examined. Thus, the aim of this research proposal is to gain a clearer understanding of the control of the cardiovascular system by the autonomic nervous system in the normal conscious animal.

  Funding Agency

Agency
National Institute of Health (NIH)
Institute
National Heart, Lung, and Blood Institute (NHLBI)
Type
Research Project (R01)
Project #
2R01HL033107-04
Application #
3344711
Study Section
Experimental Cardiovascular Sciences Study Section (ECS)
Project Start
1984-01-01
Project End
1991-12-31
Budget Start
1987-01-01
Budget End
1987-12-31
Support Year
4
Fiscal Year
1987
Total Cost
Indirect Cost

  Institution

Name
Brigham and Women's Hospital
Department
Type
DUNS #
071723621
City
Boston
State
MA
Country
United States
Zip Code
02115

  Publications

Yuan, Chujun; Yan, Lin; Solanki, Pallavi et al. (2015) Blockade of EMAP II protects cardiac function after chronic myocardial infarction by inducing angiogenesis. J Mol Cell Cardiol 79:224-31
Ho, David; Zhao, Xin; Yan, Lin et al. (2015) Adenylyl Cyclase Type 5 Deficiency Protects Against Diet-Induced Obesity and Insulin Resistance. Diabetes 64:2636-45
Yan, Lin; Kudej, Raymond K; Vatner, Dorothy E et al. (2015) Myocardial ischemic protection in natural mammalian hibernation. Basic Res Cardiol 110:9
Lee, Grace J; Yan, Lin; Vatner, Dorothy E et al. (2015) Mst1 inhibition rescues ?1-adrenergic cardiomyopathy by reducing myocyte necrosis and non-myocyte apoptosis rather than myocyte apoptosis. Basic Res Cardiol 110:7
Zhao, Zhenghang; Babu, Gopal J; Wen, Hairuo et al. (2015) Overexpression of adenylyl cyclase type 5 (AC5) confers a proarrhythmic substrate to the heart. Am J Physiol Heart Circ Physiol 308:H240-9
Yan, Lin; Vatner, Stephen F; Vatner, Dorothy E (2014) Disruption of type 5 adenylyl cyclase prevents ?-adrenergic receptor cardiomyopathy: a novel approach to ?-adrenergic receptor blockade. Am J Physiol Heart Circ Physiol 307:H1521-8
Lai, Lo; Yan, Lin; Gao, Shumin et al. (2013) Type 5 adenylyl cyclase increases oxidative stress by transcriptional regulation of manganese superoxide dismutase via the SIRT1/FoxO3a pathway. Circulation 127:1692-701
Bravo, Claudio; Kudej, Raymond K; Yuan, Chujun et al. (2013) Metabolomic analysis of two different models of delayed preconditioning. J Mol Cell Cardiol 55:19-26
Park, Misun; Vatner, Stephen F; Yan, Lin et al. (2013) Novel mechanisms for caspase inhibition protecting cardiac function with chronic pressure overload. Basic Res Cardiol 108:324
Yan, Lin; Gao, Shumin; Ho, David et al. (2013) Calorie restriction can reverse, as well as prevent, aging cardiomyopathy. Age (Dordr) 35:2177-82

Showing the most recent 10 out of 213 publications