Sarah C. Bundey scite author profile

The desert locust Schistocerca gregaria behaviorally thermoregulates in order to try and maintain a favoured "set point" body temperature. Locusts infected with the deuteromycete fungal pathogen Metarhizium anisopliae var acridumchoose a significantly elevated temperature. This "behavioral fever" greatly delays the progress of mycosis. We have confirmed this phenomenon and shown that desert locusts also fever when infected with the bacterial pathogen Serratia marcescens. Elevation in the prefered environmental temperature occurs also upon injection with laminarin and lipopolysaccharide (microbial cell wall components). Since such treatments also stimulate the immune system it would appear that "behavioral fever" is probably a feature of the immune response. The eicosanoid biosynthesis inhibitor dexamethasone prevented laminarin invoked fever. This effect was reversable by arachidonic acid. Therefore in common with the febrile response in mammals behavioral fever in insects may be mediated locally by circulating eicosanoids.

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Large-scale analysis of gene expression changes during acute and chronic exposure to Δ⁹-THC in rats

Kittler

Grigorenko

Clayton³

et al. 2000

Physiological Genomics

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Large-scale cDNA microarrays were employed to assess transient changes in gene expression levels following acute and chronic exposure to cannabinoids in rats. A total of 24,456 cDNA clones were randomly selected from a rat brain cDNA library, amplified by PCR, and arrayed at high density to investigate differential gene expression profiles following acute (24 h), intermediate (7 days), and chronic (21 days) exposure to Delta(9)-tetrahydrocannabinol (Delta(9)-THC), the psychoactive ingredient of marijuana. Hippocampal mRNA probes labeled with (33)P obtained from both vehicle and Delta(9)-THC-treated animals were hybridized with identical cDNA microarrays. Results revealed a total of 49 different genes altered by Delta(9)-THC exposure; of these, 28 were identified, 10 had homologies to expressed sequence tags (ESTs), and 11 had no homology to known sequences in the GenBank database. Chronic or acute cannabinoid receptor activation altered expression of several genes (i.e., prostaglandin D synthase, calmodulin) involved in biochemical cascades of cannabinoid synthesis or cannabinoid effector systems. Other genes [i.e., neural cell adhesion molecule (NCAM), myelin basic protein], whose relation to cannabinoid system function was not immediately obvious, were also significantly altered. Verification of the changes obtained with the large-scale screen was determined by RNA dot blots in different groups of animals treated the same as those in the large-scale screen. Results are discussed in terms of the different types of genes affected at different times during chronic Delta(9)-THC exposure.

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Assessment of cannabinoid induced gene changes: tolerance and neuroprotection

Grigorenko¹,

Kittler

Clayton

et al. 2002

Chemistry and Physics of Lipids

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Ataxia-Telangiectasia. A Cellular and Molecular Link Between Cancer, Neuropathology, and Immune Deficiency

Bundey¹

1984

Journal of Medical Genetics

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Sarah C. Bundey

Eicosanoid involvement in the regulation of behavioral fever in the desert locust, Schistocerca gregaria

Large-scale analysis of gene expression changes during acute and chronic exposure to Δ⁹-THC in rats

Assessment of cannabinoid induced gene changes: tolerance and neuroprotection

Ataxia-Telangiectasia. A Cellular and Molecular Link Between Cancer, Neuropathology, and Immune Deficiency

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Sarah C. Bundey

Eicosanoid involvement in the regulation of behavioral fever in the desert locust, Schistocerca gregaria

Large-scale analysis of gene expression changes during acute and chronic exposure to Δ9-THC in rats

Assessment of cannabinoid induced gene changes: tolerance and neuroprotection

Ataxia-Telangiectasia. A Cellular and Molecular Link Between Cancer, Neuropathology, and Immune Deficiency

Contact Info

Product

Resources

About

Large-scale analysis of gene expression changes during acute and chronic exposure to Δ⁹-THC in rats