University of Florida

Department of Physiology and Functional Genomics

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Home   Faculty Annette de Kloet, Ph.D.

Annette de Kloet, Ph.D.

Assistant Professor

Office: L4-185
Phone:  (352) 294-8490
PubMed Listing

Dr. de Kloet received received a B.S. in Biomedical Engineering from Florida State University in 2006 and a Ph.D. in Neuroscience from the University of Cincinnati in 2011.  She then completed her post doctoral training at the University of Florida in 2015 and is currently an Assistant Professor in the Department of Physiology and Functional Genomics at the University of Florida.

Dr. de Kloet’s research program is broadly focused on elucidating mechanisms underlying obesity and co-morbid conditions such as hypertension and diabetes.  A particular emphasis is placed on the interactions among the neural circuits that regulate energy balance with those that control blood pressure, and also on the impact that the renin-angiotensin system has on these circuits.   Some specific research topics currently being explored include: the impact of high-fat diet on angiotensin-sensitive neural circuits; the role of angiotensin-II and related peptides in the neuroendocrine regulation of energy balance; optogenetic targetting of angiotensin-sensitive neurons of the nodose ganglion to combat obesity and hypertension; mechanisms by which angiotensin-senstive neurons of the median preoptic nucleus coordinate physiological and pathophysiological responses to hypertensive stimuli; mechanisms linking angiotensin-sensitive neurons and thermogenic responses to pertubations in energy balance and blood pressure regulation.

In order to explore these and other research topics, the de Kloet lab uses a mutli-level approach that has spans the use of several molecular, genetic, physiological and behavioral techniques.  Some examples of the approaches used in her laboratory are: telemetry and indirect calorimetery, which are used to assess cardiovascular parameters and energy expenditure respectively; optogenetics, fiber photometry, neuronal tract tracing, mRNA in situ hybridization, and immunohistochemistry, which are used to characterize the structure and function of specific sets of neurons involved in these processes; and genetic recombination and virally-mediated gene transfer techniques, which allow for the manipulation of gene expression in specific cellular phenotypes.


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