It is hypothesized that the degree to which the G protein, Gs?, is associated with lipid rafts is an indicator of both depression and therapeutic response. The original observations suggesting this biosignature were made in postmortem tissue, and we have extended this work with in vivo and in vitro preliminary data suggesting that raft localization of Gs?, determined by simple detergent extraction, is a biomarker of both depression and antidepressant response. There are suggestions that n-3 PUFA either have antidepressant activity or can synergize the action of some antidepressant drugs. To test this, we will use a glial cell line as well as lymphoblasts from depressed subjects who were either antidepressant responsive or unresponsive. This should provide a predictive model for the response to an antidepressant agent, whether that agent is fish oil, citalopram, or some combination. We will test the applicability of the biomarker by measuring the lipid raft distributin of Gs? in membranes from blood cells collected during an NIMH-funded clinical trial showing n-3 PUFA augmentation of antidepressant response. The proposed experiments also attempt to mesh mechanistic preclinical studies with a clinical study to propose and test a biomarker. The preclinical work seeks to determine whether in-vitro treatment with antidepressants n-3 PUFA shifts Gs? into non-raft fractions of the plasma membrane, where it more effectively activates adenylyl cyclase. We suggest that a compound with antidepressant efficacy concentrates in cholesterol-rich membrane domains (lipid rafts) and disrupts the anchoring of Gs? within those domains. One possible mechanism for this is direct modification of Gs?. This will be studied by biochemical fractionation of membrane components, fluorescence recovery after photobleaching (FRAP) and by cellular imaging. Since most antidepressant therapy (save ketamine) requires a time lag prior to therapeutic efficacy and this can be replicated in cells, translocation of Gs? in response to antidepressant agents will be monitored in real time using a fluorescent Gs? fusion protein. Should n-3 PUFA show these biological hallmarks of antidepressant activity, alone or in combination with SSRIs , this will be translated by examining blood taken in a clinical study of the antidepressant efficacy of n-3 PUFA ( SSRIs). Initial data from this study show a greater antidepressant response to n3 PUFA + SSRI than to placebo or SSRI alone. Finally, we will test, with the biochemical and imaging studies, lymphoblasts, derived from depressed patients with known response (or lack thereof) to citalopram. One goal is to develop a high content screen that might suggest, prospectively, the effectiveness of a given potential therapy. Successful completion of the proposed studies will also indicate the usefulness of n-3 PUFA supplementation to antidepressant therapy for decreasing time of therapeutic onset and/or lowering overall antidepressant dose. They will also pave the way toward establishing a low-cost blood biomarker for both depression and antidepressant efficacy over a broad range of agents.

Public Health Relevance

Fish Oil is reported to act as an antidepressant, but this remains controversial. In order to determine whether Fish Oil has antidepressant properties, or enhances conventional antidepressants, we will explore a possible cellular mechanism whereby both fish oil and marketed antidepressant compounds exert their effect. We will investigate the actions of two omega 3 polyunsaturated fatty acid components of fish oil in a unique, cell based biomarker system we have developed. This will be done alone and in combination with one class of antidepressants, in order to determine whether, as our preliminary results indicate, fish oil enhances antidepressant efficacy. We will also attempt to translate this biomarker into one indicative of treatment response by examining peripheral tissue from an NIMH-funded clinical study on the antidepressant effects of poly unsaturated fatty acids. Finally, we will test these effects on cells derived from depressed patients with known response (or lack of response) to antidepressants. Results from these investigations will provide important information about a cellular mechanism that may be responsible for the purported efficacy of omega- 3 fatty acids in the treatment of major depressive disorder. They will also help us to establish a simple blood biomarker that can objectively identify both depression and antidepressant response (whether to alternative/complimentary or to allopathic treatment).

Agency
National Institute of Health (NIH)
Institute
National Center for Complementary & Alternative Medicine (NCCAM)
Type
Research Project (R01)
Project #
5R01AT009169-02
Application #
9146277
Study Section
Adult Psychopathology and Disorders of Aging Study Section (APDA)
Program Officer
Pontzer, Carol H
Project Start
2015-09-30
Project End
2019-09-29
Budget Start
2016-09-30
Budget End
2017-09-29
Support Year
2
Fiscal Year
2016
Total Cost
Indirect Cost
Name
University of Illinois at Chicago
Department
Physiology
Type
Schools of Medicine
DUNS #
098987217
City
Chicago
State
IL
Country
United States
Zip Code
60612
Singh, Harinder; Wray, Nathan; Schappi, Jeffrey M et al. (2018) Disruption of lipid-raft localized G?s/tubulin complexes by antidepressants: a unique feature of HDAC6 inhibitors, SSRI and tricyclic compounds. Neuropsychopharmacology 43:1481-1491
Wray, Nathan H; Schappi, Jeffrey M; Singh, Harinder et al. (2018) NMDAR-independent, cAMP-dependent antidepressant actions of ketamine. Mol Psychiatry :
Burhani, Mansoor D; Rasenick, Mark M (2017) Fish oil and depression: The skinny on fats. J Integr Neurosci 16:S115-S124
Cocchi, Massimo; Minuto, Chiara; Tonello, Lucio et al. (2017) Linoleic acid: Is this the key that unlocks the quantum brain? Insights linking broken symmetries in molecular biology, mood disorders and personalistic emergentism. BMC Neurosci 18:38
Cocchi, Massimo; Bernroider, G; Rasenick, Mark et al. (2017) Document of Trapani on animal consciousness and quantum brain function: A hypothesis. J Integr Neurosci 16:S99-S103
Masubuchi, Yosuke; Nakagawa, Yuko; Medina, Johan et al. (2017) T1R3 homomeric sweet taste receptor regulates adipogenesis through G?s-mediated microtubules disassembly and Rho activation in 3T3-L1 cells. PLoS One 12:e0176841
Rasenick, Mark M (2016) Depression and Adenylyl Cyclase: Sorting Out the Signals. Biol Psychiatry 80:812-814
Erb, Samuel J; Schappi, Jeffrey M; Rasenick, Mark M (2016) Antidepressants Accumulate in Lipid Rafts Independent of Monoamine Transporters to Modulate Redistribution of the G Protein, G?s. J Biol Chem 291:19725-19733
Donati, Robert J; Schappi, Jeffrey; Czysz, Andrew H et al. (2015) Differential effects of antidepressants escitalopram versus lithium on Gs alpha membrane relocalization. BMC Neurosci 16:40
Ha, Chang Man; Park, Daehun; Kim, Yoonju et al. (2015) SNX14 is a bifunctional negative regulator for neuronal 5-HT6 receptor signaling. J Cell Sci 128:1848-61