Origin of the serotonergic innervation to the rat dorsolateral hypothalamus: retrograde transport of cholera toxin and upregulation of tryptophan hydroxylase mRNA expression following selective nerve terminals lesion.

The regulation of serotonin synthesis was investigated in the serotonergic neurons, which provide afferents to the dorsolateral hypothalamus (DLH). The origin of the DLH projection neurons within the raphe nucleus was identified by retrograde transport of Cholera toxin (CTb) and their serotonergic nature confirmed by tryptophan hydroxylase (TPH) immunocytochemistry. Disruption of serotonin synthesis steady-state was induced unilaterally by a selective and local destruction of serotonergic nerve terminals with 5,7-dihydroxytryptamine (5,7-DHT), stereotaxically injected in the right DLH. The results show that most of the serotonergic dorsal raphe neurons projecting to the DLH have an ipsilateral localization within the lateral aspects of the nucleus. In rats with unilateral DLH lesion, a population of serotonergic cells within the raphe nucleus exhibited a clear increase in TPH mRNA. These cells were about five times more numerous in the ipsilateral as compared to the contralateral dorsal raphe nucleus and they had, for the most part, a lateral localization within the raphe nucleus. Sham-operated rats did not exhibit any upregulation of TPH mRNA. Together, the present results provide the first demonstration that a discreet and selective destruction of serotonergic terminals induces a circumscribed and striking increase in TPH mRNA expression in a subset of brainstem serotonergic neurons projecting to and/or passing through the DLH. On the basis of these results and previous in vivo measurements of TPH activity (e.g., 5-HT synthesis), we suggest that this upregulation in TPH mRNA expression results from the loss of pre-synaptic and/or post-synaptic regulation of serotonin synthesis. These new findings raise important issues related to the repercussions of a local disruption in serotonergic neurotransmission on brain areas remote from the site of injury.

Small stress protein Hsp27 accumulation during dopamine-mediated differentiation of rat olfactory neurons counteracts apoptosis.

The small stress protein Hsp27 is expressed during mammalian neural development. We have analyzed the role of this protein in immortalized rat olfactory neuroblasts. In the presence of dopamine a fraction of these cells differentiate into neurons while the remaining cells undergo apoptosis. We report here that the dopamine induced differentiation and apoptosis are associated with a transient and specific accumulation of Hsp27. Moreover, transfection experiments have shown that Hsp27 overexpression drastically decreases the fraction of cells undergoing apoptosis. In contrast, reduction of the endogenous level of Hsp27 led to abortion of differentiation and, therefore, drastically increased the number of apoptotic cells. Furthermore, in the normal cell population we show that Hsp27 accumulation takes place only in differentiating cells that were not undergoing apoptosis. We therefore conclude that Hsp27 may represent a key protein that controls the decision of olfactory precursor cells to undergo either differentiation or cell death.

The effect of unilateral neurotoxic lesions to serotonin fibres in the medial forebrain bundle on the metabolism of [3H]DOPA in the telencephalon of the living rat.

We used quantitative autoradiography to measure the contribution of the 5-hydroxytryptamine (5-HT, serotonin) innervation of rat telencephalon to the synthesis of dopamine (DA) from exogenous L-DOPA. One week after stereotaxic infusions of 5,7-dihydroxy-tryptamine (5,7-DHT, 1.6 micrograms) into the right medial forebrain bundle (MFB), rats received [3H]DOPA (200 microCi,i.v.), which circulated for 90 min. The specific bindings in vitro of the 5-HT uptake site ligand [3H]citalopram and the DA uptake site ligand [125I]RTI-55 were measured in cryostat sections from the prosencephalon. In most structures ipsilateral to the lesion, [3H]citalopram specific binding was substantially reduced (50-90%). In the lateral habenula specific binding declined by only 30-40%, reflecting the presence of a 5-HT pathway deviating from the MFB at the mesencephalic flexure. [125I]RTI-55 binding in the basal ganglia was reduced by 50% on the side of the 5,7-DHT lesion, but was unperturbed in rats pretreated with desmethylimipramine (DMI). 5,7-DHT infusions decreased the synthesis of [3H]DA from [3H]DOPA in vivo in the basal ganglia by (40-90%). Pretreatment with DMI protected [3H]DA synthesis in the basal ganglia, but not in the olfactory tubercle and amygdala ipsilateral to the lesion. Whereas the 5-HT innervation does not contribute greatly to [3H]DA synthesis in the basal ganglia, a substantial proportion of [3H]DA synthesis in olfactory tubercle and amygdala requires an intact 5-HT innervation.

Ipsilateral alterations in tryptophan hydroxylase activity in rat brain after hypothalamic 5,7-di-hydroxytryptamine lesion.

The in vivo relationship between the amounts of tryptophan hydroxylase (TPH) protein and its intrinsic synthetic activity, measured by quantifying the amounts of alpha-[3H]methyl-5-hydroxytryptamine (alpha-[3H]M5-HT), is reported in cell body and terminal areas of intact and disturbed serotonergic neurons following a unilateral 5,7-dihydroxytryptamine (5,7-DHT) lesion of the dorsolateral hypothalamus. Five days after the lesion, the relationships between TPH and its synthetic product 5-HT were evaluated on adjacent brain sections in serotonergic cells bodies of the dorsal raphe nucleus (DRN) and nerve fibres of the medial forebrain bundle (MFB). On the side contralateral to the lesion, TPH and alpha-[3H]M5-HT levels in the intact hemi-DRN exhibited a caudo-rostral distribution and were positively and significantly correlated (p < or = 0.001); the calculated TPH-specific activity was 0.76 nCi of alpha-[3H]M5-HT formed per U TPH. In the MFB, quantitative measurements of TPH and alpha-[3H]M5-HT showed no correlation between enzyme and product and no specific activity for TPH could be determined. On the side ipsilateral to the lesion, the density of TPH-immunoreactive fibers was drastically decreased in the dorsolateral hypothalamus where a significant reduction in TPH content (45.5% of control side, P < 0.001) was found. In the overall ipsilateral hemi-DRN, TPH and alpha-[3H]M5-HT levels, their correlation as well as TPH-specific activity were unaltered by the lesion but a significant increase in alpha-[3H]M5-HT and TPH contents was observed in the lateral wings of the DRN. The lesion also induced a significant increase in alpha-[3H]M5-HT and TPH levels (136% and 93.8%, P < 0.001, respectively) in the ipsilateral MFB, which resulted in a positive and significant correlation between these two markers and yielded a TPH-specific activity of 1.0 nCi of alpha-[3H]M5-HT formed per U TPH. TPH topological area was also significantly increased in the lateral aspect of the ipsilateral MFB 5 days post lesion. These results show that 5-HT synthesis in the intact DRN is proportional to and dependent on TPH activity while in the MFB, 5-HT accumulation appears unrelated to TPH content which is most likely in an inactive enzymatic form. Moreover, the data show that a local disruption of serotonergic terminals in the dorsolateral hypothalamus does not affect 5-HT synthesis in the overall ipsilateral DRN neurons but results in local activation of TPH within the serotonergic projection neurons and the ipsilateral MFB, as evidenced by active de novo synthesis of 5-HT. Altogether the results point to circumscribed activation of compensatory mechanisms in 5-HT synthesis after selective destruction of serotonergic terminals.

Effect of age on platelet 5-HT concentrations in healthy controls, depressed and schizophrenic patients.

The influence of age on platelet 5-HT concentrations was investigated in 85 male unipolar depressed inpatients, 113 male schizophrenic inpatients and 81 normal male controls. The correlation coefficients between platelet 5-HT concentrations and age within groups were very low and nonsignificant. Our results suggest that higher platelet 5-HT content, observed in schizophrenic patients, could not be ascribed to the influence of age.