Research Interest: Pharmacology
| Name | PhD Program | Research Interest | Publications |
|---|---|---|
| Robinson, Donita WEBSITE PUBLICATIONS |
PHD PROGRAM RESEARCH INTEREST |
The Robinson lab currently explores the neurodynamics of reinforcement pathways in the brain by using state-of-the-art, in vivo recording techniques in freely moving rats. Our goal is to understand the interplay of mesostriatal, mesocortical and corticostriatal circuits that underlie action selection, both in the context of normal development and function, and in the context of psychiatric disorders that involve maladaptive behavior, such as alcohol use disorder, adolescent vulnerability to drug use and addiction, cocaine-induced maternal neglect and binge-eating disorders. |
| Roth, Bryan WEBSITE PUBLICATIONS |
PHD PROGRAM RESEARCH INTEREST |
The ultimate goal of our studies is to discover novel ways to treat human disease using G-protein coupled receptors. |
| Singleton, Scott WEBSITE PUBLICATIONS |
PHD PROGRAM RESEARCH INTEREST |
The Singleton Laboratory is interested in understanding the molecular basis for the develoment and transmission of microbial drug resistance and the discovery and exploitation of new strategies for controlling drug-resistant microorganisms. We develop and adapt synthetic chemistry and synthetic biology methods to provide new molecular tools — both biologically active small molecules and innovative platforms — for hypothesis-driven biological research and pharmaceutical discovery. These foundations of our program offers both chemically-oriented and biologically-oriented researchers new opportunities for the development of integrated, multi-disciplinary knowledge and technologies. |
| Sullivan, Patrick WEBSITE PUBLICATIONS |
PHD PROGRAM RESEARCH INTEREST |
I study complex traits using linkage, association, and genetic epidemiological approaches. Disorders include schizophrenia (etiology and pharmacogenetics), smoking behavior, and chronic fatigue. |
| Thiele, Todd WEBSITE PUBLICATIONS |
PHD PROGRAM RESEARCH INTEREST |
My primary research interests are directed at the neurobiology of alcoholism. To study the central mechanisms involved with neurobiological responses to ethanol, I use both genetic and pharmacological manipulations. There are many factors that may cause an individual to progress from a moderate or social drinker to an alcoholic. In addition to environmental influences, there is growing evidence in both the human and animal literature that genetic factors contribute to alcohol abuse. Furthermore, the risk for developing alcoholism is likely not associated with a single gene, but rather with multiple genes that interact with environmental factors to determine susceptibility for uncontrolled drinking. Some of the questions that my laboratory is currently addressing are: 1) Does central neuropeptide Y (NPY) signaling modulate neurobiological responses to ethanol and ethanol consumption, 2) Do melanocortin peptides modulate ethanol intake? and 3) Does cAMP-dependent kinase (PKA) play a role in voluntary ethanol consumption and/or other effects produced by ethanol? |
| Yeh, Jen Jen WEBSITE PUBLICATIONS |
PHD PROGRAM RESEARCH INTEREST |
We are a translational cancer research lab. The overall goal of our research is to find therapeutic targets and biomarkers for patients with pancreatic cancer and to translate our results to the clinic. In order to accomplish this, we analyze patient tumors using a combination of genomics and proteomics to study the patient tumor and tumor microenvironment, identify and validate targets using forward and reverse genetic approaches in both patient-derived cell lines and mouse models. At the same time, we evaluate novel therapeutics for promising targets in mouse models in order to better predict clinical response in humans. |
| Zhang, Qisheng WEBSITE PUBLICATIONS |
PHD PROGRAM RESEARCH INTEREST |
Our lab studies lipid signaling pathways that are involved in development and diseases by developing novel chemical probes and technologies. As key components of cellular membranes, lipids also serve as signaling molecules and modify functions of proteins through either covalent or non-covalent interactions. Dys-regulation of lipid signaling has been correlated with various diseases including cancer, diabetes, and neurodegenerative diseases. Consequently, many lipid-related proteins or processes have been used as therapeutic targets. However, lipids are dynamically metabolized and transported, making it difficult to illustrate the roles of lipids in development and diseases with limited availability of probes and technologies for lipid studies. The active projects in the lab include: 1) develop novel technologies to synthesize complex lipids, particularly phosphatidylinositides, and identify their interacting proteins in live cells; 2) develop new small molecule sensors and inhibitors for lipid metabolic enzymes such as PI3K and PLC; and 3) investigate cellular functions of lipids on different processes, particularly those regulated by small GTPases. |
| Calabrese, J. Mauro WEBSITE PUBLICATIONS |
PHD PROGRAM RESEARCH INTEREST |
Our lab is trying to understand the mechanisms by which long noncoding RNAs orchestrate the epigenetic control of gene expression. Relevant examples of this type of gene regulation occur in the case of X-chromosome inactivation and autosomal imprinting. We specialize in genomics, but rely a combination of techniques — including genetics, proteomics, and molecular, cell and computational biology — to study these processes in both mouse and human stem and somatic cell systems. |
| Tarantino, Lisa M. WEBSITE PUBLICATIONS |
PHD PROGRAM RESEARCH INTEREST |
The Tarantino lab studies addiction and anxiety-related behaviors in mouse models using forward genetic approaches. We are currently studying a chemically-induced mutation in a splice donor site that results in increased novelty- and cocaine-induced locomotor activity and prolonged stress response. We are using RNA-seq to identify splice variants in the brain that differ between mutant and wildtype animals. We are also using measures of initial sensitivity to cocaine in dozens of inbred mouse strains to understand the genetics, biology and pharmacokinetics of acute cocaine response and how initial sensitivity might be related to addiction. Finally, we have just started a project aimed at studying the effects of perinatal exposure to dietary deficiencies on anxiety, depression and stress behaviors in adult offspring. This study utilizes RNA-seq and a unique breeding design to identify parent of origin effects on behavior and gene expression in response to perinatal diet. |
| Reissner, Kathryn WEBSITE PUBLICATIONS |
PHD PROGRAM RESEARCH INTEREST |
Research in our lab is focused on understanding how cocaine abuse affects glial cell physiology, in particular neuron-astrocyte communication. We utilize the rat cocaine self-administration/reinstatement model, which allows us to test hypotheses regarding not only how chronic cocaine use affects properties of astrocytes and the tripartite synapse, but also how compounds affecting glial cells may influence synaptic processing within the brain’s reward neurocircuitry and behavioral measures of drug seeking. |