Differential expression of GABAA receptor subunit mRNAs in ethanol-naive withdrawal seizure resistant (WSR) vs. withdrawal seizure prone (WSP) mouse brain.

Several lines of evidence suggest an important role for ethanol interactions with GABAA receptors in the development of the ethanol withdrawal syndrome. The present study was undertaken to determine whether there is a genetic relationship between ethanol withdrawal seizure severity and the expression of particular GABAA receptor subunits in mouse lines selectively bred for differential sensitivity to ethanol withdrawal seizures. Since GABAA receptor subunit levels are subject to modulation by ethanol, the levels of GABAA receptor alpha 1, alpha 6 and beta 2 subunit mRNAs were measured in cerebellum while alpha 1 and beta 2 subunit levels were determined in cerebral cortex of ethanol-naive WSR and WSP mice.

The neuroanatomical specificity of ethanol action on ligand-gated ion channels: a hypothesis.

The studies described will demonstrate that the subunit composition of a GABAA receptor allows ethanol to enhance responses to GABA. Since we have determined that ethanol will influence responses to glycine, nicotine and NMDA in some, but not all, neurons with receptors to these agonists, we hypothesize that specific receptor subtypes of these ligand-gated ion channels will be affected by ethanol.

Nitrogen analogues of haematoporphyrin and haematoporphyrin derivative.

The preparation of a number of amines related to haematoporphyrin (HP) and haematoporphyrin derivative (HPD) have been studied and their composition and structure discussed through examination of their 1H, 13C NMR and mass spectral data and other physical properties. In vitro biological studies have been carried out and have shown these amines to have a similar photodynamic efficiency to that of HPD. One of these showed cytotoxic properties at exceptionally low light energy levels.

GABAA receptor function and regional analysis of subunit mRNAs in long-sleep and short-sleep mouse brain.

The greater sensitivity of long-sleep (LS), as compared with short-sleep (SS), mice to ethanol is due in part to differences in GABAA receptor function in specific brain regions. To determine if differences in subunit composition of GABAA receptors contribute to this differential sensitivity, we measured alpha 1 and gamma 2 subunit mRNAs with Northern analysis and in situ hybridization and gamma 2S, gamma 2L and alpha 6 subunit mRNAs with polymerase chain reaction (PCR) amplification. No differences in mRNAs in whole brain were apparent by Northern analysis.