The MAGL Inhibitor, JZL184, Attenuates LiCl-Induced Vomiting in the Suncus murinus and 2AG Attenuates LiCl-Induced Nausea-Like Behavior in Rats

Sticht, Martin

06 April 2011

The role of 2-arachidonoylglycerol (2-AG) in nausea and vomiting was evaluated using a shrew (Suncus murinus) model of emesis and nausea-like behavior in rats, conditioned gaping. Shrews received JZL184, a selective MAGL inhibitor, prior to treatment with emetogenic lithium chloride (LiCl). The potential of exogenously administered 2-AG and arachidonic acid (AA) to regulate conditioned gaping was assessed in rats. The role of cannabinoid receptors and cyclooxygenase (COX) inhibition in suppression of vomiting and conditioned gaping was also evaluated. JZL184 dose-dependently suppressed vomiting in shrews, and was shown to inhibit MAGL in shrew brain tissue. The anti-emetic effects of JZL184 were prevented by the CB1 antagonist, AM251. Exogenous 2-AG suppressed LiCl-induced conditioned gaping, but was not prevented by AM251 or the CB2 antagonist, AM630. Instead, the COX inhibitor, indomethacin, prevented the suppressive effects of 2-AG, as well as AA. These results suggest that manipulations that elevate 2-AG may have anti-emetic/anti-nausea potential. / This research was supported by research grants from the Natural Sciences and Engineering Research Council of Canada (NSERC 92057) to Linda Parker, the Israel Science Foundation (DA009789) to Raphael Mechoulam, and the National Institutes of Health (DA009789, DA017259) to Benjamin Cravatt.

MAGL

2AG

CB1 Receptor

cyclooxygenase

nausea

vomiting

learning

gaping

taste reactivity

Vývoj lehkých izolačních kompozitů na bázi pěnového skla s využitím ve stavebnictví / Development of lightweight composites based on foam glass with utilization in civil engineering

Bubeník, Jan

January 2019

Theoretical part of diploma thesis deals with progressive building materials, namely with aggregate from foam glass. Resources for production, description of production, properties of aggregate and its utilization are included. Production of lightweight gaping concrete, its properties, risks during its production and utilization in building practice are part of diploma thesis as well. Lightweight gaping concrete was made during practical part. It was produced by combining aggregate from foam glass and cement. Testing of required properties was carried out on these made samples.

The Role of Serotonin Availability in the Rat Insular Cortex on Conditioned Disgust and Conditioned Taste Avoidance

Tuerke, Katharine

18 January 2013

Although the neural mechanisms regulating vomiting are well understood, the neurobiology of nausea is not. Unlike conditioned taste avoidance (CTA), conditioned disgust (indicated by orofacial gaping reactions) is a model of nausea-induced behaviour in rats because it is selectively produced by emetic drugs and anti-emetics attenuate it. Treatments that reduce serotonin (5-HT) availability selectively interfere with conditioned gaping (Limebeer and Parker, 2000; 2003) and forebrain serotonin is critical for the production of disgust reactions (Grill and Norgren, 1978b; Limebeer et al., 2004). The insular cortex (IC) is a site of taste-illness associations and is involved in the sensation of nausea and vomiting in humans (Penfield and Faulk, 1955; Fiol et al., 1988; Catenoix et al., 2008) and other animals (Kaada, 1951; Contreras et al., 2007). Therefore, we investigated the relationship between serotonin, conditioned gaping and CTA in the insular cortex. Systemic pretreatment with the classic anti-emetic ondansetron (OND) reduced both LiCl-induced unconditioned malaise (assessed by lying on belly) and conditioned gaping reactions, without modifying CTA. These experiments demonstrate that decreases in serotonin availability interfere with conditioned gaping and unconditioned malaise as well as provide further evidence of the validity of the conditioned gaping model. Rats with bilateral NMDA lesions of the agranular IC showed attenuated CTA learning but conditioned gaping reactions were unaffected. This finding suggests that the agranular IC, a site of gustatory input, may be required for CTA learning. Partial serotonergic depletion of the IC attenuated conditioned gaping reactions, suggesting that serotonin in the IC is required to establish conditioned gaping. A double dissociation in the regulation of disgust and taste avoidance, by selective 5-HT3 receptor antagonism/agonism in the visceral (granular) IC and the gustatory (agranular) IC was observed. Infusion of OND into the visceral IC attenuated conditioned gaping but spared CTA. Additionally, administration of the 5-HT3 receptor agonist m-chlorophenylbiguanide (mCPBG) enhanced LiCl-induced conditioned gaping reactions (which was prevented by intracranial administration of OND), but spared CTA. In contrast, intracranial OND pretreatment in the gustatory IC attenuated CTA and mCPBG infusions produced CTA, but neither affected the nausea-induced behaviour of conditioned gaping. Together, these studies shed light on the neurobiology of nausea. These results suggest that 5-HT activity (at the 5-HT3 receptor) in the visceral IC may selectively produce the nausea-induced reactions of conditioned disgust, while activity in the gustatory IC may be involved in the production of CTA learning. / This research was supported by a Natural Sciences and Engineering Research Council (NSERC) operating grant (92057) to L.A. Parker and a NSERC CGS-D scholarship to K.J. Tuerke. This work was also supported by an Ontario Graduate Scholarship to K.J. Tuerke.

nausea

serotonin

gaping

5-HT3 receptor

conditioned taste avoidance

insular cortex

lying on belly

rat

ondansetron

gustatory cortex

visceral

mCPBG

The Impact of Prolonged Anandamide Availability by Anandamide Transport Inhibition on Nausea-Induced Behaviour in Rats and Vomiting in Shrews (Suncus murinus)

O'Brien, Lesley D

07 August 2013

Considerable evidence supports anandamide (AEA) as an important mediator in the regulation of nausea and vomiting. The present study investigates the effect of inhibiting a protein reported to mediate AEA transport, FLAT (FAAH-1-like AEA transporter), on nausea and vomiting and the neural correlates of AEA regulated nausea in the visceral insular cortex (VIC). The systemic administration of the AEA transport inhibitor ARN272 was evaluated in LiCl-induced conditioned gaping in rats, and vomiting in shrews. The effect of intra-cranial administration of ARN272 into the VIC was also investigated using LiCl-induced conditioned gaping in rats. Systemic administration of ARN272 dose-dependently suppressed LiCl-induced conditioned gaping in rats, and was reversed by CB1 receptor antagonism with SR141716. Systemic administration of ARN272 also attenuated vomiting in shrews. Delivery of ARN272 into the VIC produced no effect on LiCl-induced conditioned gaping in rats. These results suggest that preventing the cellular reuptake of AEA through transport inhibition tonically activates CB1 receptors to regulate toxin-induced nausea, but that this is not AEA regulated within the VIC. / This research was supported by grants from the Natural Sciences and Engineering Research Council of Canada (NSERC-92057) to LAP.

Endocannabinoid

Anandamide

Nausea

Gaping

Vomiting

FAAH-1-like anandamide transporter

FLAT

CB1

ARN272

taste reactivity

Visceral Insular Cortex

Taxonomical study of predatory and plant-parasitic mites associated with South African Solanaceae / Candice Ceustermans

Ceustermans, Candice

January 2015

Plant-feeding mites represent major pests in agriculture that are of importance to crops world-wide, as large populations of mites reduce the quality and quantity of yields. Alternatives to the use of pesticides are needed due to their negative effects and bio-control agents (predatory mites) remain advantages as they suppress spider mites and other plant pests. This study aims to determine species status of plant-feeding and predatory mites on plants of the family Solanaceae and to apply morphological and molecular data to determine phylogenetic relationships among economically important Phytoseiidae, Stigmaeidae and Tetranychidae. The material for this study was collected through plant beating and specimens were preserved in 75% and 96% ethanol respectively and mounted in Heinz’s PVA medium on microscope slides. A survey was conducted during peak seasons to provide enough samples of pest and predatory species. Morphological analysis was performed and initial results indicate that 94% of the species identified were parasitic and 6% were predatory, which led to a predator:prey ratio of 1:17, where Tetranychus evansi Baker & Pritchard had the highest frequency of appearance. A modified Qiagen DNeasy tissue kit extraction protocol was used and Polymerase Chain Reaction was performed to amplify ribosomal ITS and mitochondrial COI gene fragments. The nucleotide sequence of a 700-bp fragment for ITS was determined by direct sequencing as well as for a 700-bp and 800-bp fragments for COI. The resulting data included 4 isolates that corresponded morphologically and molecularly with Phytoseiidae and 10 with Stigmaeidae. The phylogenetic trees agreed with the morphological data. For species that lack morphological descriptions in GenBank and are not placed within expected clades, one has to accept the possibility of miss identification and highlights the need to combine morphological and molecular approaches to guarantee solid species diagnosis. Ultimately, Solanaceae contain various parasitic mites, but predators seem low in numbers. This could be problamatic in finding effective bio-control agents. / MSc (Zoology), North-West University, Potchefstroom Campus, 2015

Spider Mites

Predaceous Mites

Species identification

Tetranychidae

Phytoseidae

Stigmaeidae

Internal Transcribed Spacers (ITS)

Cytocrome c Oxidase I (COI)

Phylogenetic relationships

Spinmyte

Predatoriese myte

Identifisering van spesies

Sitochroom c oksidase I (COI)

Filogenetiese verwantskappe

Taxonomical study of predatory and plant-parasitic mites associated with South African Solanaceae / Candice Ceustermans

Ceustermans, Candice

January 2015

Plant-feeding mites represent major pests in agriculture that are of importance to crops world-wide, as large populations of mites reduce the quality and quantity of yields. Alternatives to the use of pesticides are needed due to their negative effects and bio-control agents (predatory mites) remain advantages as they suppress spider mites and other plant pests. This study aims to determine species status of plant-feeding and predatory mites on plants of the family Solanaceae and to apply morphological and molecular data to determine phylogenetic relationships among economically important Phytoseiidae, Stigmaeidae and Tetranychidae. The material for this study was collected through plant beating and specimens were preserved in 75% and 96% ethanol respectively and mounted in Heinz’s PVA medium on microscope slides. A survey was conducted during peak seasons to provide enough samples of pest and predatory species. Morphological analysis was performed and initial results indicate that 94% of the species identified were parasitic and 6% were predatory, which led to a predator:prey ratio of 1:17, where Tetranychus evansi Baker & Pritchard had the highest frequency of appearance. A modified Qiagen DNeasy tissue kit extraction protocol was used and Polymerase Chain Reaction was performed to amplify ribosomal ITS and mitochondrial COI gene fragments. The nucleotide sequence of a 700-bp fragment for ITS was determined by direct sequencing as well as for a 700-bp and 800-bp fragments for COI. The resulting data included 4 isolates that corresponded morphologically and molecularly with Phytoseiidae and 10 with Stigmaeidae. The phylogenetic trees agreed with the morphological data. For species that lack morphological descriptions in GenBank and are not placed within expected clades, one has to accept the possibility of miss identification and highlights the need to combine morphological and molecular approaches to guarantee solid species diagnosis. Ultimately, Solanaceae contain various parasitic mites, but predators seem low in numbers. This could be problamatic in finding effective bio-control agents. / MSc (Zoology), North-West University, Potchefstroom Campus, 2015

Spider Mites

Predaceous Mites

Species identification

Tetranychidae

Phytoseidae

Stigmaeidae

Internal Transcribed Spacers (ITS)

Cytocrome c Oxidase I (COI)

Phylogenetic relationships

Spinmyte

Predatoriese myte

Identifisering van spesies

Sitochroom c oksidase I (COI)

Filogenetiese verwantskappe