Investigating viral subversion of intercellular communication

Calhoun II, Patrick James

19 June 2020

Adenoviruses are non-enveloped, dsDNA tumor viruses responsible for a breadth of pathogenesis including acute respiratory disease and viral myocarditis. Gap junctions, which are formed by connexin proteins, directly couple the cytoplasms of apposed cells enabling immunological, metabolic, and electrical intercellular communication. The gap junction protein connexin43 (Cx43; gene name – GJA1) is the most widely expressed human connexin protein and is the predominant connexin in the working myocardium. Given the immunological role for Cx43 gap junctions, we hypothesized that gap junctions would be targeted during adenoviral infection. We find reduced Cx43 protein due to suppression of GJA1 transcription dependent upon β-catenin during adenoviral infection, with viral protein E4orf1 sufficient to induce β-catenin phosphorylation. Loss of gap junction function occurs prior to reduced Cx43 protein levels with Ad5 infection rapidly inducing Cx43 phosphorylation at residues previously demonstrated to alter gap junction conductance. Direct Cx43 interaction with ZO-1 plays a critical role in gap junction regulation. We find loss of Cx43/ZO-1 complexing during Ad5 infection by co-immunoprecipitation, with complementary studies in human induced pluripotent stem cell derived-cardiomyocytes revealing Cx43 gap junction remodeling concomitant with reduced ZO-1 complexing. These findings demonstrate specific targeting of gap junction function by Ad5 leading to disruptions in intercellular communication which would contribute to dangerous pathological states including arrhythmias in infected hearts. Intercellular junction proteins belonging to classically defined unique junctions exhibit extensive cross-talk and interdependency for expression and localization. We find reduced connexin43 (Cx43) phosphorylation at a known internalization motif, leading us to hypothesize that gap junctions are maintained during adenoviral infection in order to stabilize intercellular junctions and adenoviral receptors therein. Utilizing immunofluorescence confocal microscopy, we demonstrate that Cx43 reductions are primarily cytosolic with Cx43 preservation at the plasma membrane. Click-IT chemistry, a non-radioactive pulse-chase technique, reveals that Cx43 ½ life is extended during adenoviral infection. In order to test if remaining Cx43 exists in de facto gap junctions (i.e. not undocked or cytosolic connexons) we utilized 1 % Triton X-100 solubility fractionation and find Cx43 is indeed primarily junctional during adenoviral infection. Having demonstrated increases in junctional Cx43, we next asked how tightly coupled cells were during adenoviral infection and by ECIS measurements of electrical resistance we demonstrate a transient increase in mechanical coupling during infection. Our future aims are to uncover changes in Coxsackievirus and adenovirus receptor (CAR) protein localization to determine if adenoviral-induced changes to subcellular architecture predisposes neighboring cells to infection and enhances viral spread. These findings will add to the existing model of adenoviral infection and more broadly, contribute to the therapeutic design of adenoviral vectors for cancer and gene therapy. / Doctor of Philosophy / The human heart will beat more than 3 billion times during the average lifetime. This is accomplished by billions of individual heart muscle cells, called cardiomyocytes, contracting in synchrony. Cardiomyocytes require direct cell to cell communication in order to receive the proper cues and work in concert. Outside of the heart, including the lining of the lungs which acts as a first line of defense against invading pathogens, direct cell to cell communication is important for mounting proper immune responses. A primary means by which cells communicate directly with neighboring cells is through gap junctions which are formed of proteins called connexins. Six connexin proteins form a channel in the cell surface that binds to a similar channel on an apposing cell to create a continuous gap junction channel, coupling the cell interiors directly. The most widely expressed human connexin, and the most abundant connexin in the heart, is connexin43 (Cx43; gene name – GJA1). Adenoviruses are pathogens commonly associated with respiratory illnesses in addition to more serious diseases including viral myocarditis, or infection of the heart. Given that Cx43 gap junctions enable direct intercellular communication important in initiating immune responses, we hypothesized that adenovirus would target Cx43 and gap junctions during infection. We find reduced Cx43 protein in cells infected with human adenovirus, and revel that the expression of the GJA1 gene is suppressed. We next focused on potential signaling pathways that are changed during adenoviral infection. β-catenin is a factor with several cellular roles including regulating expression of specific genes including GJA1 (Cx43). We demonstrate β-catenin is activated during adenoviral infection and that this is necessary for reducing Cx43 transcripts. A pathway that activates β-catenin in this manner is the PI3K/Akt signaling axis, which has previously been shown to be turned on during adenovirus infection by a viral protein called E4orf1. We find the adenoviral protein E4orf1 is sufficient to induce β-catenin activation revealing a potential therapeutic target for future studies. We next determined that direct cell to cell communication through gap junctions is reduced before loss of the gap junction protein Cx43 during infection. Gap junctions are modified by the cell to change their ability to couple cells independently of protein levels alone and we find gap junction modifications consistent with altered communication ability. Furthermore, the gap junction protein Cx43 interacts with the cellular skeleton protein Zonula Occludens-1 (ZO-1) during movement into and out of gap junction clusters. We determined alterations in Cx43/ZO-1 interactions consistent with gap junction remodeling. In complimentary studies we find the same gap junction remodeling in cardiomyocytes revealing arrhythmogenic potential during acute adenoviral infection in human heart cells. Localized with gap junctions are several other junction proteins including the Coxsackievirus and adenovirus receptor (CAR) which is critical in cardiac development and also the primary receptor for species C adenoviruses (used in our studies). CAR expression has been demonstrated to alter Cx43 levels and indeed, many junctional proteins influence the expression and/or localization of other junctional proteins. Interestingly, despite reduced Cx43 levels and reduced gap junction function (cell to cell communication), we detected decreases in a gap junction modification that is associated with gap junction degradation, suggesting that new gap junction protein Cx43 is not being made but already synthesized Cx43 is degraded more slowly. We hypothesized Cx43 is maintained during adenoviral infection in order to recruit other junctional components, principally CAR, on uninfected neighbor cells to predispose them to infection. We observed using microscopy that Cx43 reductions are primarily inside the cell but Cx43 is preserved on the cell surface and at junctions between cells. We next asked if the protein is being degraded more slowly and find Cx43 exists for longer in infected cells signifying that it is being degraded more slowly. Utilizing a fractionation technique to separate gap junction connexin from connexon that is non-junctional or inside the cell, we detect an increase in junctional Cx43, revealing maintenance of Cx43 gap junction structures. Having now identified adenoviral-mediated maintenance of Cx43 gap junction structures, we next wanted to test for changing in mechanical coupling (i.e. how tightly are the cells connected to one another) where we demonstrate an increase in mechanical coupling during adenoviral infection. Our future directions are to determine if this increase in Cx43 gap junction maintenance and mechanical coupling is concomitant with changes in CAR expression/localization on uninfected neighboring cells and if altered, does this predispose uninfected neighbors of infected cells to infection.

adenovirus

gap junction

beta catenin

connexin

myocarditis

Effects of constitutive and acute Connexin 36 deficiency on brain-wide susceptibility to PTZ-induced neuronal hyperactivity

Brunal-Brown, Alyssa Alexandra

30 October 2020

Connexins are transmembrane proteins that form hemichannels allowing the exchange of molecules between the extracellular space and the cell interior. Two hemichannels from adjacent cells dock and form a continuous gap junction pore, thereby permitting direct intercellular communication. Connexin 36 (Cx36), expressed primarily in neurons, is involved in the synchronous activity of neurons and may play a role in aberrant synchronous firing, as seen in seizures. To understand the reciprocal interactions between Cx36 and seizure-like neural activity, we examined three questions: a) does Cx36 deficiency affect seizure susceptibility, b) does seizure-like activity affect Cx36 expression patterns, and c) does acute blockade of Cx36 conductance increase seizure susceptibility. We utilize the zebrafish pentylenetetrazol (PTZ; a GABA(A) receptor antagonist) induced seizure model, taking advantage of the compact size and optical translucency of the larval zebrafish brain to assess how PTZ affects brain-wide neuronal activity and Cx36 protein expression. We exposed wild-type and genetic Cx36-deficient (cx35.5-/-) zebrafish larvae to PTZ and subsequently mapped neuronal activity across the whole brain, using phosphorylated extracellular-signal-regulated kinase (pERK) as a proxy for neuronal activity. We found that cx35.5-/- fish exhibited region-specific susceptibility and resistance to PTZ-induced hyperactivity compared to wild-type controls, suggesting that genetic Cx36 deficiency may affect seizure susceptibility in a region-specific manner. Regions that showed increased PTZ sensitivity include the dorsal telencephalon, which is implicated in human epilepsy, and the lateral hypothalamus, which has been underexplored. We also found that PTZ-induced neuronal hyperactivity resulted in a rapid reduction of Cx36 protein levels within. 30 minutes and one-hour exposure to 20 mM PTZ significantly reduced the expression of Cx36. This Cx36 reduction persists after one-hour of recovery but recovered after 3-6 hours. This acute downregulation of Cx36 by PTZ is likely maladaptive, as acute pharmacological blockade of Cx36 by mefloquine results in increased susceptibility to PTZ-induced neuronal hyperactivity. Together, these results demonstrate a reciprocal relationship between Cx36 and seizure-associated neuronal hyperactivity: Cx36 deficiency contributes region-specific susceptibility to neuronal hyperactivity, while neuronal hyperactivity-induced downregulation of Cx36 may increase the risk of future epileptic events. / Doctor of Philosophy / Within the brain, cells (neurons) communicate with each other to pass along information. This communication is important for normal functions of the brain such as learning and memory, muscle movement, etc. Epilepsy is a disease of the brain that is caused by rapid over synchronized communication between cells. This leads to seizures which can include convulsions, loss of attention, and much more. Currently, 30% of patients suffering from epilepsy do not have a treatment option that works for them, it is, therefore, imperative to investigate new targets for treatment in this disease. Connexin36 is a protein in the brain that directly connects cells so they can pass information quickly between them. Connexin36, therefore, might make a good target for treatment. Previous work has aimed to understand this relationship but has been limited in their ability to look at the entire brain at any one time. The goal of this study was to understand the relationship between connexin 36 and brain hyperactivity across the whole brain simultaneously. To understand this relationship, we first determined what happened to brain activity if the protein was missing entirely after exposure to a seizure causing drug. We were asking: How does connexin 36 affect hyperactivity. We found that different regions of the brain responded differently without the connexin 36 protein. This suggests that one size does not fit all, and one must look at the whole brain to understand the effects of the connexin 36 protein. Next, we asked a similar question, but in the opposite direction, how does hyperactivity affect connexin 36? We found, in the short-term, hyperactivity reduced the amount of connexin 36 present in certain regions of the brain. This continued until 3 hours following exposure to the seizure causing drug Pentylenetetrazol (PTZ). Lastly, to determine if this short-term reduction in connexin 36 meant that an individual was more likely to experience hyperactivity. To do this, we used a connexin 36 blocking drug, then introduced the seizure causing drug at different concentrations. We found, at all concentrations, the connexin 36 blocking drug caused significant changes in neuronal activity, depending on the brain regions. Overall, our results showed that connexin 36 plays an important role in hyperactivity and that a short-term reduction in connexin 36 is detrimental, and may contribute to an increase in the possibility of subsequent hyperactivity.

seizure

MAP-mapping

epilepsy

gap junction

Einfluss der endothelialen Connexine auf die Angiogenese

Gärtner-Grätz, Christiane

07 April 2015

Hintergrund: Connexine (Cx) spielen eine wichtige Rolle bei Wachstum und Differenzierung. Die Angiogenese ist an vielen physiologischen und pathologischen Prozessen beteiligt. Jedoch ist noch unklar, ob Connexine einen Einfluss auf die Angiogenese haben. Fragestellung; In dieser Arbeit sollte die Rolle endothelialer Connexine an der Angiogenese untersucht werden. Methoden: Venöse Zellen der menschlichen Nabelschnur (HUVEC) wurden kultiviert bis sie subkonfluent waren. Vor der 3D Kultur im Matrigel wurden die Zellen entweder mit Nicotin, dem Gap Junction Inhibitor Palmitoleinsäure (PA), einem siRNA-Knockdown von entweder Cx37, Cx40 oder Cx43 oder mit Isoprenalin behandelt. Die Zellen wurden dann auf ein in vitro Angiogenese-Assay (3D-Kultur, Matrigel) gegeben und nach 18h wurden unterschiedliche Angiogeneseparameter erhoben, um die Komplexität der Angiogenese zu beurteilen. Änderungen der Expression der Cx mRNA- und Proteinexpression sowie der Kommunikation über Gap Junctions wurden mittels PCR, Immunfluoreszenzmikroskopie, Western Blot und Lucifer Yellow Dye Transfer untersucht. Bei Gewebeproben der A. mammaria von Rauchern und Nichtrauchern wurden mittels Immunofluoreszenzmikroskopie die Expression der Cx beurteilt. Ergebnisse: Die Behandlung mit spezifischer siRNA führte zu einer signifikanten Abnahme der Expression des jeweiligen Connexins in den HUVECs. Sowohl der Knockdown als auch die Behandlung mit PA verringerte die Kommunikation über Gap Junctions signifikant und reduzierte die Anzahl der Abzweigungen im Angiogenese-Assay. Der Knockdown des Cx43 und Cx40 sowie die Behandlung mit PA reduzierten ebenfalls die Komplexität des Musters im Matrigel-Assay. Nicotin führte zu einer Reduktion der Cx43- und Cx37-Proteinexpression, wohingegen Cx40 durch transskriptionelle Gegenregulation konstant gehalten wurde, sowie zu einer Abnahme der Länge der Kapillar-ähnlichen-Strukturen, der Anzahl der Abzweigungen und des Musters im Matrigelassay, während die Anzahl der Zellen zunahm. Die mRNA-Expression der Connexine war hingegen erhöht. In Gewebeproben von Rauchern konnte analog eine verminderte Expression von Cx43 und Cx37, aber nicht von Cx40, in der Intima gezeigt werden. Isoprenalin erhöhte die Proteinexpression der endothelialen Connexine und verbesserte sowohl die interzelluläre Kommunikation als auch das Muster im Matrigel-Assay. Ebenso waren die Kapillar-ähnlichen Strukturen im Vergleich zur Kontrolle länger. Schlussfolgerung: Aus den erhobenen Ergebnissen lässt sich der Schluss ziehen, dass Connexine bei der Angiogenese involviert sind, vor allem beim Vorgang der Verzweigung. Dies kann teilweise die Veränderung erklären, die eine Nicotinbehandlung auf die Angiogenese hat.

Gap Junction

Connexin

Nicotin

Isoprenalin

siRNA

gap junction

connexin

nicotine

isoprenalie

siRNA

ddc:610

Der Einfluss von Noradrenalin auf Gap Junction Kanäle

Glawe, Inken

24 October 2011

Gap Junction Kanäle sind wesentlich für die interzelluläre Kommunikation im Herzen. Die wichtigsten kardialen Gap Junction Proteine sind Connexin 43, Connexin 40 und in frühen Entwicklungsstadien Connexin 45. Da Katecholamine eine wichtige Rolle in der kardialen Physiologie bzw. Pathophysiologie spielen, sollte geklärt werden, ob Katecholamine die Expression von Connexin 40 und Connexin 43 beeinflussen. Es wurden neonatale Rattenkardiomyozyten in Zellkultur 24 Stunden mit aufsteigenden Noradrenalinkonzentrationen (1-10000 nM) (physiologischer Agonist für α-und β-Adrenozeptoren) inkubiert. Hier zeigte sich ein signifikanter Anstieg der Connexin 43 Expression, während die Connexin 40 Expression nicht beeinflußt wurde. Um zu zeigen über welchen Adrenozeptor (α oder β) die Hochregulation von Cx 43 durch Noradrenalin erfolgt, wurden die Zellkulturen in zwei weiteren Versuchsreihen zusätzlich mit einem β-Blocker (Propranolol 100µM) bzw. einem α- Blocker (Prazosin 10 µM) über 24 Std. inkubiert. Hier zeigte sich eine deutliche Inhibierung des Noradrenalineffektes durch die Blockade der α-Rezeptoren durch Prazosin. Eine Blockade der β-Rezeptoren hatte keinen inhibitorischen Effekt auf die Hochregulation der Expression von Cx 43 durch Noradrenalin. Es kam hier sogar zu einer verstärkten Expression verglichen mit der Cx 43 Expression unter Noradrenalin ohne Rezeptorblockade. Desweiteren wurde überprüft, ob es auch unter der Behandlung von Sprague– Dawley-Ratten mit einem β-Mimetikum (Isoprenalin) bzw. einem α-Mimetikum (Phenylephrin) zu einer Veränderung der Connexinexpression kommt. Die Western Blot Analysen ergaben hierbei wieder einen α-Rezeptoren vermittelten Effekt, indem es zu einem wesentlichen Konzentrationsanstieg von Connexin 43 unter der Behandlung mit Phenylephrin kam.

Noradrenalin

Gap Junction

Arrhythmien

Herzinsuffizienz

Noradrenalin

gap junction channels

dysrhythmia

cardiac insufficiency

ddc:610

CALCIUM REGULATION OF CELL-CELL COMMUNICATION AND EXTRACELLULAR SIGNALING

Zou, Juan

12 August 2016

As a highly versatile signal, Ca2+ operates over a wide temporal range to regulate many different cellular processes, impacting nearly every aspect of cellular life including excitability, exocytosis, motility, apoptosis, and transcription. While it has been well recognized that Ca2+ acts as both a second messenger to regulate cell-cell communication upon external stimuli and as a first messenger to integrate extracellular with intracellular signaling in various cell types. Molecular bases for such regulation and related human diseases are largely hampered by the challenges related to key membrane proteins. In the present study, we first investigated the regulatory role of intracellular Ca2+ ([Ca2+]i) on Connexin45 (Cx45) gap junction through a ubiquitous Ca2+ sensor protein-Calmodulin (CaM). Using bioluminescence resonance energy transfer assay, this study provides the first evidence of direct association of Cx45 and CaM in a Ca2+-dependent manner in cells. Complementary approaches including bioinformatics analysis and various biophysical methods identified a putative CaM-binding site in the intracellular loop of Cx45 with high Ca2+/CaM-binding affinity and Ca2+-dependent binding mode that is different from alpha family of connexins. To understand the role of extracellular calcium in regulation of gap junction hemichannels, we would like to prove a possible Ca2+-binding site predicted by our computational algorithm MUGSR in Connexin 26 (Cx26) through mutagenesis study, metal binding affinity measurement, conformational changes examination of purified Cx26 protein from Sf9; however, we failed to achieve this goal due to either the limitation of available methods or lethal effect of mutating the predicted Ca2+-binding ligand. Additionally, in this study, we identified a putative Ca2+-binding site in metabotropic glutamate receptor 5 (mGluR5) and demonstrated the importance of this Ca2+-binding site in activation of mGluR5 and modulating the actions of other orthosteric ligands on mGluR5. In addition, we successfully solved the first crystal structure of the extracellular domain of Ca2+-sensing receptor (CaSR) bound with Mg2+ and an unexpected Trp derivative. The extensive study of mechanism of CaSR function specifically through Mg2+-binding site and the unexpected ligand-binding site was done using several cell-based assays in wild type CaSR and mutants. Studies in this dissertation provides more information on how Ca2+ regulates gap junction channels, modulates mGluR5 activities and structural basis for regulation of CaSR by Mg2+ and an unexpected Trp derivative co-agonist.

DISTINCT ROLES FOR Cx37 AND Cx40 IN REGULATING VASCULAR RESPONSES FOLLOWING ISCHEMIA

Fang, Jennifer Shea-Ying

January 2010

Gap junctions are intercellular channels that permit passage of electrical and chemical signals between neighbouring cells. Vascular endothelium typically co-expresses Cx37 and Cx40, but may downregulate its expression of Cx37 (and upregulate Cx43) in response to changes in flow. The specific regulatory roles mediated by vascular endothelial connexins, and the consequences of altered connexin expression, remain unclear. In this study, we hypothesized that Cx37 and Cx40 regulate distinct vascular responses. We further hypothesize that Cx37 is predominantly involved in vascular growth control, whereas vascular growth is not affected by ablation of Cx40 expression. We show herein that Cx37, but not Cx40 or Cx43, suppresses growth of a highly-proliferative cancer cell line by inducing G1 cell cycle accumulation. We further show that Cx37-deficient mice, lacking Cx37's putative growth inhibitory effect on the vasculature, exhibit a more extensive native and post-ischemic collateral circulation, and greater ischemia-induced microvascular density. In addition, Cx37-/- mice demonstrate a functional improvement in recovery over wild-type animals in two models of hindlimb ischemia. By contrast, Cx40-/- mice fail to recover distal limb flow following unilateral hindlimb ischemia, resulting in necrosis. Long-term angiotensin II antagonism normalized post-ischemic hindlimb bloodflow, reduced macrophage infiltration, and delayed (but did not reverse) the necrotic phenotype of these animals. In summary, we show a distinct role for each of the endothelial connexins, Cx37 and Cx40, in regulating post-ischemic vascular responses.

Angiogenesis

Collateral

Connexin

Gap Junction

Ischemia

Vascular Remodeling

Defective lymphatic valve development and chylothorax in mice with a lymphatic-specific deletion of Connexin43.

Munger, Stephanie J, Davis, Michael J, Simon, Alexander M

15 January 2017

Lymphatic valves (LVs) are cusped luminal structures that permit the movement of lymph in only one direction and are therefore critical for proper lymphatic vessel function. Congenital valve aplasia or agenesis can, in some cases, be a direct cause of lymphatic disease. Knowledge about the molecular mechanisms operating during the development and maintenance of LVs may thus aid in the establishment of novel therapeutic approaches to treat lymphatic disorders. In this study, we examined the role of Connexin43 (Cx43), a gap junction protein expressed in lymphatic endothelial cells (LECs), during valve development. Mouse embryos with a null mutation in Cx43 (Gja1) were previously shown to completely lack mesenteric LVs at embryonic day 18. However, interpreting the phenotype of Cx43(-/-) mice was complicated by the fact that global deletion of Cx43 causes perinatal death due to heart defects during embryogenesis. We have now generated a mouse model (Cx43(∆LEC)) with a lymphatic-specific ablation of Cx43 and show that the absence of Cx43 in LECs causes a delay (rather than a complete block) in LV initiation, an increase in immature valves with incomplete leaflet elongation, a reduction in the total number of valves, and altered lymphatic capillary patterning. The physiological consequences of these lymphatic changes were leaky valves, insufficient lymph transport and reflux, and a high incidence of lethal chylothorax. These results demonstrate that the expression of Cx43 is specifically required in LECs for normal development of LVs.

Connexin

Connexin43

Gap junction

Lymphatic valve

Valve development

Chylothorax

Efficacy of gap junction enhancers and antineoplastic drugs in mammary carcinoma models

Shishido, Stephanie Nicole

January 1900

Doctor of Philosophy / Department of Diagnostic Medicine/Pathobiology / Thu Annelise Nguyen / Preclinical animal models of mammary carcinoma formation are vital for the advancement of cancer research, specifically in drug development. Two different types of animal models were utilized to determine the efficacy of combinational treatment of common antineoplastic drugs and the new class of primaquines that act as gap junction enhancers (PQs) at attenuating mammary tumor growth. The classic xenograft mouse model was used to show that PQs could increase the efficacy of cisplatin and paclitaxel. Combinational treatment induced an upregulation of connexin and caspase expression in the isolated tumor. Next the transgenic PyVT mouse model was characterized by multiple factors, including hormone receptor status, molecular markers for survival and proliferation, tissue histopathology, and secondary metastases during multiple stages of tumor development. This model showed limited therapeutic response to the antineoplastic drugs tested. PQ1 effectively attenuated tumor growth at all stages of tumorigenesis in the PyVT model, while PQ7 was determined to be an effective chemopreventive compound rather than chemotherapeutic. The PQs altered the expression profiles of connexins during tumorigenesis. Together the results indicate that PQs have an anticancer effect that is more efficient at attenuating tumor growth than the common antineoplastic compounds. Lastly the PyVT mouse model was used to determine the efficacy of antineoplastic compounds on male mammary carcinoma development. Interestingly, the antineoplastic compound that attenuated female mammary carcinoma growth did not produce a therapeutic response in the males and vice versa, suggesting a need for further studies into the male response to therapy.

Gap junction

Connexin

Breast cancer

Oncology (0992)

Pathology (0571)

Sensitivity to Dopamine D1/D2 Receptor Stimulation in Mice Lacking Connexin-32 or Connexin-36

McKenna, James

21 May 2004

Previous work has shown D1/D2 requisite synergism can still occur in the striatum in the absence of action potentials. Some nonclassical communication such as gap junctions may be allowing the segregated dopamine (DA) receptors to interact to produce stereotyped motor activity. Connexin-32 (Cx32) and connexin-36 (Cx36) were targeted for study due to their abundance in neural tissues and presence in the striatum. Mice lacking either the Cx32 or Cx36 gene and their respective wildtype littermates were compared on a climbing behavior task used to gauge their dopaminergic activity after receiving either saline, D1 agonist, D2 agonist, or both D1 and D2 agonists. The results showed that D1/D2 requisite synergism was still intact in both strains of mice. The Cx32 WT mice displayed significantly greater scores than the KO mice in the D1/D2 treatment. The Cx36 mice did not display a significant genotype difference, but a trend was observed with the KO females having larger scores relative to WT females or to males of either genotype.

Gap junction

knockout

requisite synergism

striatum

transgenic

climbing .. behavior

Chemogenetic Stimulation of Electrically Coupled Midbrain GABA Neurons in Alcohol Reward and Dependence

Pistorius, Stephanie Suzette

01 May 2017

The prevailing view is that enhancement of dopamine (DA) transmission in the mesolimbic system leads to the rewarding properties of alcohol. The mesolimbic DA system, which plays an important role in regulating reward and addiction, consists of DA neurons in the midbrain ventral tegmental area (VTA) that innervate the nucleus accumbens (NAc). It is believed that VTA DA neurons are inhibited by local gamma-aminobutyric acid (GABA) interneurons that express connexin-36 (Cx36) gap junctions (GJs). We have previously demonstrated that blocking Cx36 GJs suppresses electrical coupling between VTA GABA neurons and reduces ethanol intoxication and consumption suggesting that electrical coupling between mature VTA GABA neurons underlies the rewarding properties of ethanol. The aim of this study was to further investigate the role of VTA GABA neurons expressing Cx36 GJs in regulating DA neuron activity and release and mediating ethanol effects on VTA GABA neurons. To this end, we customized a Designer Receptor Exclusively Activated by Designer Drugs (DREADDs) viral vector to target VTA GABA neurons expressing Cx36 GJs in order to chemogenetically modulate their activity. In order to more conclusively demonstrate the role of this sub population of VTA GABA neurons in regulating DA neural activity and release we used electrophysiology to characterize the electrical changes that occur in VTA DA and GABA neurons when Cx36-expressing VTA GABA cells were selectively activated. In addition, we evaluated the effects of activation of VTA GABA neurons on brain stimulation reward and alcohol consumption in ethanol naive and dependent mice. Results indicate that there are two populations of GABA neurons in the VTA, one that is GAD65+/Cx36+ and one that is GAD67+/Cx36-. Activation of Cx36+ VTA GABA neurons by clozapine-n-oxide (CNO) in mice injected with Gq DREADD activated VTA DA neurons and subsequent DA release in the NAc, suggesting that Cx36-containing GABA neurons are inhibiting non-Cx36 GABA neurons to disinhibit DA neurons. In hM3Dq animals, CNO administration provided a rewarding stimulus in the conditioned pace preference paradigm, and reduced consumption in the drink-in-the-dark ethanol consumption paradigm in dependent and naïve mice. A better understanding of the circuitry of the mesolimbic DA system is key to understanding the mechanisms that lead to addiction and may ultimately lead to improved therapies for substance abuse.

GABA

dopamine

connexin-36

gap junction

chemeogenetics

Physiology