Edit Hermesz

The LIM-homeobox gene Lhx8 is required for the development of many cholinergic neurons in the mouse forebrain

Forebrain cholinergic neurons play important roles as striatal local circuit neurons and basal telencephalic projection neurons. The genetic mechanisms that control development of these neurons suggest that most of them are derived from the basal telencephalon where Lhx8, a LIM-homeobox gene, is expressed. Here we report that mice with a null mutation of Lhx8 are deficient in the development of forebrain cholinergic neurons. Lhx8 mutants lack the nucleus basalis, a major source of the cholinergic input to the cerebral cortex. In addition, the number of cholinergic neurons is reduced in several other areas of the subcortical forebrain in Lhx8 mutants, including the caudate-putamen, medial septal nucleus, nucleus of the diagonal band, and magnocellular preoptic nucleus. Although cholinergic neurons are not formed, initial steps in their specification appear to be preserved, as indicated by a presence of cells expressing a truncated Lhx8 mRNA and mRNA of the homeobox gene Gbx1. These results provide genetic evidence supporting an important role for Lhx8 in development of cholinergic neurons in the forebrain.

Involvement of Gap Junctions in the Manifestation and Control of the Duration of Seizures in Rats In Vivo

Summary:  Purpose: The possible role of gap junctions in the manifestation and control of the duration of seizures was tested on the 4‐aminopyridine–induced epilepsy model in rats in vivo, by using electrophysiologic, pharmacologic, and molecular biologic techniques.

Involvement of electrical coupling in the in vivo ictal epileptiform activity induced by 4-aminopyridine in the neocortex.

In the present study we have investigated the possible role of gap junctions in the induction and manifestation of 4-aminopyridine-induced acute seizure activity both at the primary focus and at the mirror focus in anaesthetized rats by combining electrophysiological, pharmacological and molecular biological techniques. In the course of the intracellular recordings, unusual firing patterns that are assumed to be mediated by electrical coupling and appearing either randomly or in close time-locked manner with the ictal discharges were observed. In another series of experiments, a significant decrease in the intensity of seizure activity of the already active epileptic foci was detected when electrical synaptic transmission was blocked by carbenoxolone either at the primary focus or at the mirror focus. When electrical synaptic transmission was depressed relative to the initial baseline prior to the induction of epileptic focus, only a mild influence on the induction of seizure discharges occurred. The role of the gap junctional communication in the epileptiform activity was further investigated by following the expression pattern of two connexin genes. Both, connexin-32 and connexin-43 mRNA levels were significantly elevated at the primary focus as well as at the mirror focus, after 60 min of repeated ictal discharges. We conclude that gap junction communication probably became a part of the neuronal synchronization both in the primary and in the secondarily-induced acute epileptiform activity in the neocortex in vivo. These results, together with earlier observations, indicate a direction for the development of new drugs targeting gap junctions for therapeutic intervention.

Tissue- and stressor-specific differential expression of two hsc70 genes in carp

Two genes expressing 70 kDa heat shock proteins were identified in Cyprinus carpio. The sequence similarities and the intron-interrupted structure of the coding regions indicate that carp Hsc70-1 and Hsc70-2 belong to the Hsp70 cognate subfamily. The expressions of the two hsc70 genes were followed by semi-quantitative RT-PCR. Both genes are expressed under unstressed conditions in a characteristic tissue-specific manner. Inducibility of the response to elevated temperature, cold shock, and Cd treatment was investigated in the liver and muscle, in whole-animal experiments. Both genes were insensitive to or only weakly induced by the stressors, with two exceptions: Cd treatment resulted in an 11-13-fold enhanced induction of hsc70-1 in the liver and cold shock enhanced induction of hsc70-2 in the muscle by 7.5-10-fold.

Identification of two hsp90 genes in carp.

Two hsp90 cDNA isoforms (hsp90alpha and hsp90beta) were isolated from the common carp (Cyprinus carpio). Gene-specific probes and primers were selected and used in Northern blot hybridization and RT-PCR reactions to measure the basal hsp90 mRNA levels and to follow the inducer-specific expression of the hsp90 genes in different tissues during in vivo studies. The hsp90beta gene is largely constitutively expressed at a fairly high level in all the examined tissues (brain, liver and kidney) and is slightly inducible by an elevated temperature. Hsp90alpha mRNA is present in the brain, but is hardly detectable in the kidney and liver of unstressed animals. In the brain, this gene is greatly upregulated following thermal stress, whereas in the liver and kidney heat shock has only minor effects on its expression. Hsp90alpha, but not hsp90beta, responds to an elevated level of Cd in a dose-, time- and tissue-dependent manner.

The Functional Significance of Gap Junction Channels in the Epileptogenicity and Seizure Susceptibility of Juvenile Rats

Summary:  Purpose: The functional significance of gap‐junction (GJ) channels in seizure susceptibility and induction and maintenance of seizures in the developing rat brain was investigated on the 4‐aminopyridine (4‐AP) in vivo epilepsy model.

A role of the LIM-homeobox gene Lhx2 in the regulation of pituitary development.

The mammalian pituitary gland originates from two separate germinal tissues during embryonic development. The anterior and intermediate lobes of the pituitary are derived from Rathkes pouch, a pocket formed by an invagination of the oral ectoderm. The posterior lobe is derived from the infundibulum, which is formed by evagination of the neuroectoderm in the ventral diencephalon. Previous studies have shown that development of Rathkes pouch and the generation of distinct populations of hormone-producing endocrine cell lineages in the anterior/intermediate pituitary lobes is regulated by a number of transcription factors expressed in the pouch and by inductive signals from the ventral diencephalon/infundibulum. However, little is known about factors that regulate the development of the posterior pituitary lobe. In this study, we show that the LIM-homeobox gene Lhx2 is extensively expressed in the developing ventral diencephalon, including the infundibulum and the posterior lobe of the pituitary. Deletion of Lhx2 gene results in persistent cell proliferation, a complete failure of evagination of the neuroectoderm in the ventral diencephalon, and defects in the formation of the distinct morphological features of the infundibulum and the posterior pituitary lobe. Rathkes pouch is formed and endocrine cell lineages are generated in the anterior/intermediate pituitary lobes of the Lhx2 mutant. However, the shape and organization of the pouch and the anterior/intermediate pituitary lobes are severely altered due to the defects in development of the infundibulum and the posterior lobe. Our study thus reveals an essential role for Lhx2 in the regulation of posterior pituitary development and suggests a mechanism whereby development of the posterior lobe may affect the development of the anterior and intermediate lobes of the pituitary gland.

A novel inducible element, activated by contact with Rathke's pouch, is present in the regulatory region of the Rpx/Hesx1 homeobox gene.

Reciprocal inductive interactions are postulated to play a role in the determination and differentiation of the pituitary gland and the ventral hypothalamus. The homeobox gene Rpx/Hesxl is expressed during gastrulation in the anterior endoderm, prechordal plate, and the prospective cephalic neural plate, and at later stages of development in Rathkes pouch, the primordium of the pituitary. We have defined the regulatory elements necessary for proper spatial and temporal expression during development in transgenic mice using lacZ reporter genes. Proper spatial and temporal expression in the anterior endoderm prechordal plate and anterior neural plate can be recapitulated with as little as 568 bp of upstream sequence and intragenic sequence containing the first exon and intron. Late-stage expression in Rathkes pouch requires additional negative and positive regulatory elements. Interestingly, deletion analysis uncovered an element that directs transgene expression to a region of the hypothalamus that lies in direct contact with Rathkes pouch. In vitro tissue recombination experiments have established that this expression is induced by contact with the pouch. We propose that this element may be present in other genes that normally respond to signals emanating from the pouch during the development of the hypothalamic-pituitary axis. The Rpx-lacZ transgenic mice provide a novel model system for the molecular dissection of inductive cell signaling during pituitary development.

Identification of two phospholipid hydroperoxide glutathione peroxidase (gpx4) genes in common carp

The monomeric selenoprotein, phospholipid hydroperoxide glutathione peroxidase (GPx4) is an essential member of the antioxidant defense system. This paper describes the identification of two gpx4 genes (gpx4a and gpx4b) from somatic tissues of common carp (Cyprinus carpio). The two sequences exhibited 78% and 79% identity at the DNA and the predicted protein level, respectively. The gpx4a transcript was detected in all examined tissues of unstressed animals, with the highest level in the liver. The gpx4b expression was low relative to that of gpx4a in the liver, heart, muscle and brain, and was virtually undetected in the kidney. However, in the olfactory lobe gpx4b was expressed at a fairly high level, the ratio gpx4a/gpx4b being approximately 2:1. Cold shock and Cd(2+) exposure influenced the gpx4a expression to only a slight extent, whereas gpx4b was greatly down-regulated following Cd(2+) exposure.

Expressions of heat shock and metallothionein genes in the heart of common carp (Cyprinus carpio): Effects of temperature shock and heavy metal exposure

Heat shock proteins (HSPs) and metallothioneins (MTs) play important roles in protection against environmental stressors. The present study analyzes and compares the regulation of heat shock ( hsp70, hsc70-1 and hsp90alpha ) and metallothionein (MT-1 and MT-2) genes in the heart of common carp, in response to elevated temperature, cold shock and exposure to several heavy metal ions (As 3+ , Cd 2+ and Cu 2+ ), in whole-animal experiments. Among these metals, arsenate proved to be the most potent inducer of the examined stress genes; the hsp90alpha and MT-1 mRNA levels were elevated 11- and 10-fold, respectively, after a 24-h exposure. In contrast, Cd 2+ at 10 mg/L had no impact on the expression of hsp90alpha , and the MT genes also proved to be rather insensitive to Cd 2+ treatment in the heart: only a 2-2.5-fold induction was observed in response to 10 mg/L Cd 2+ . Heat shock resulted in a transient induction of hsp70 (19-fold) and hsp90alpha (15-fold), while elevated temperature had no effect on the expression of the MTs. Direct cold shock induced hsp70 expression (14-fold), while the hsp90alpha (26-fold) and MT-2 (2-fold) expressions peaked after the recovery period following a direct cold shock. The five stress genes examined in this study exhibited a unique, tissue-specific basal expression pattern and a characteristic sensitivity to metal treatments and temperature shocks.