[Paracrine regulation of anterior pituitary hormones by neuropeptides]. / Régulation paracrine des hormones antéhypophysaires par les neuropeptides.

The hypothalamus is the source of neuropeptides which, being secreted into the portal system, control the synthesis and the secretion of the anterior pituitary hormones. Besides the well characterized hypothalamic central control and the hormonal peripheral control, recent studies have shown, in the anterior pituitary, the expression, among many other regulatory factors, of neuropeptides that are identical to those produced by the hypothalamus and that seem involved in the local control of anterior pituitary functions through autocrine or paracrine mechanisms. The presence of the neuropeptide mRNAs, precursors and mature forms of the peptides in anterior pituitary tissues as well as the secretion of the mature peptides argue in favor of the intrinsic ability of the normal and tumoral anterior pituitary to express neuropeptides. This expression of neuropeptides occurring in tissues bearing functional receptors for these ligands, anterior pituitary control could rely, at least in part, on endogenous neuropeptides acting locally. Correlations between neuropeptide contents in the anterior pituitary and the plasma levels of anterior pituitary hormones suggest that neuropeptides of anterior pituitary origin can play a local regulatory role, complementary of the classical hypothalamic central control. In the normal anterior pituitary which remains under hypothalamic control, it is presently difficult to evaluate the relative importance of the local and central control. However, anterior pituitary hyperplasia and pituitary tumors represent two models in which the specific contribution of the local control is easier to define.

Evidence of thyrotropin-releasing hormone (TRH) gene expression in rat anterior pituitaries and modulation by estrogens of TRH-like immunoreactivity and TRH-elongated peptide contents.

TRH gene expression in the anterior pituitary has previously been reported in the human in vivo and in the rat in vitro. Until now, modulation of this synthesis with glucocorticoids and thyroid hormones has been observed in rats. The present study demonstrates for the first time that the TRH gene is also expressed, in vivo, in the rat anterior pituitary and that anterior pituitary TRH-like immunoreactivity (TRH-LI) and elongated forms of the immediate TRH progenitor sequence (TRH-elongated peptide) contents are also modulated by estrogens (E2). To investigate the presence of proTRH mRNA in the rat anterior pituitary, total RNA was reverse transcribed (RT) and the RT products were then amplified by PCR. Treatments with E2 were performed on intact and ovariectomized (OVX) rats for 2 months. TRH-LI was measured by RIA with an antibody which did not recognize the TRH-like peptide. pGlu-Glu-Pro-NH2 (< EEP-NH2) (cross-reactivity < 0.1%) and was characterized further as TRH-LI by HPLC. TRH-elongated peptides were measured by EIA and characterized by Sephadex G-50 chromatography and immunoblotting (molecular mass 25-35 kDa). The plasma prolactin levels and the pituitary sizes were increased by E2 treatment in both intact and OVX rats. Anterior pituitary TRH-LI increased in intact E2-treated rats compared with intact rats (82.7 +/- 19.0 versus 39.6 +/- 3.6 fmol/mg protein; means +/- S.E.M.; P < 0.001). This increase was greater when E2 was administered to OVX rats (599.0 +/- 98.4 after E2 treatment versus 58.6 +/- 3.6 fmol/mg protein: P < 0.001). In intact rats, anterior pituitary TRH-elongated peptide contents were not modified by E2 treatment while they were significantly decreased in OVX E2-treated rats (144.6 +/- 8.8 versus 223.7 +/- 9.5 fmol/mg protein; P < 0.001). These results demonstrate TRH gene expression in the rat anterior pituitary in vivo and suggest that E2 treatment is responsible for an increase in anterior pituitary TRH-LI, together with a decrease in TRH-elongated peptide contents.

[Physiology of the anterior pituary gland]. / Physiologie de l'antéhypophyse.

The anterior pituitary is a complex gland which controls the various peripheral endocrine glands (thyroid, adrenal cortex, ovary and testis) as well as essential functions as growth, reproduction and lactation. Its physiological role is of paramount importance and its pathology multiple, including functional dysregulations and diseases caused by lesions or tumors, in particular pituitary adenomas. Recent data show that, in addition to the classical control of anterior pituitary hormones by hypothalamic neuropeptides and by peripheral hormones, local controls of the paracrine or autocrine type exist. Although these new findings seem to increase the complexity of anterior pituirary control, they might, in the future, shed further light on the physiopathology of this gland.

Characterization and localization of an immunoreactive growth hormone-releasing hormone precursor form in normal and tumoral human anterior pituitaries.

Arguments favor an in situ synthesis of GH-releasing hormone (GHRH) in the normal and tumoral human anterior pituitary. These tissues may express human (h) GHRH messenger RNA, contain hGHRH-(1-44)-NH2, and secrete in vitro an immunoreactive form (ir-form) of the peptide. Here, we characterize and localize the precursor of hGHRH in human anterior pituitary tissues using RIAs specific for the C-terminus or the midportion of hGHRH-(1-44)-NH2, size-exclusion chromatography, HPLC, Western blotting, and immunocytochemistry. The anterior pituitary ir-forms were compared to those found in hypothalamus, posterior pituitary, and GHRH-secreting endocrine pancreatic tumors. Three ir-forms of hGHRH with mol wt of 30-45, and 5 kilodaltons (kDa) were detected. The 30- to 45-kDa ir-form was very likely to consist of hGHRH bound to proteins. The 5-kDa ir-form represented mature forms of hGHRH. It was the major form in tissues actively synthesizing and/or secreting hGHRH. Nontumoral anterior pituitaries contained significant amounts of mature hGHRH. The 10-kDa form was identified as a hGHRH precursor ir-form. In addition to its expected presence in the hypothalamus and GHRH-secreting tumors, normal and tumoral human anterior pituitaries contained an identical ir-form of the hGHRH precursor. Cells immunoreactive for the hGHRH precursor were observed in pituitary adenomas. Evidence for precursor and mature ir-forms of hGHRH in anterior pituitary tissues provides conclusive arguments for the endogenous synthesis of the neuropeptide.

Hypothyroidism increases TRH and TRH precursor levels in rat anterior pituitary.

Thyroliberin (TRH) has been reported to be synthesized in anterior pituitary. Modulations of anterior pituitary concentrations of TRH and its precursor (proTRH) were investigated in rats rendered hypothyroid for 21 and 48 days. In hypothyroid rats, as expected, plasma TSH levels were increased and plasma free T4 concentrations were reduced, whereas anterior pituitary concentrations of TRH were markedly increased (mean +/- SEM fmol/mg protein, 106.9 +/- 21.1 at 21 days and 181.8 +/- 59.0 at 48 days vs 42.2 +/- 13.4 in controls). Significant increases of proTRH concentrations were found in hypothyroid rats (mean +/- SEM fmol/mg protein, 266.5 +/- 16.7 at 21 days and 320.4 +/- 51.1 at 48 days vs 214.1 +/- 18.3 in controls). Daily administration of L-T4 for the last week of PTU treatment (days 41 to 48) reversed hypothyroidism by lowering plasma TSH levels and by increasing plasma free T4 concentrations. Concomitantly, T4 administration significantly decreased anterior pituitary TRH contents (114.4 +/- 35.9) as well as proTRH contents (250.4 +/- 11.7). The fact that hypothyroidism regulates anterior pituitary TRH and proTRH contents strengthens the view that TRH might play a role in local regulatory mechanisms within the anterior pituitary on the thyrotropic function.

Immunoreactive thyroliberin (TRH) precursor forms in human hypothalamus and anterior pituitary tissues.

Immunoreactive (IR) proTRH forms were characterized in human hypothalamic tissue with two antisera raised against a hepta- and a decapeptide containing the TRH progenitor sequence (-Gln-His-Pro-Gly-). A similar study was performed in human normal and adenomatous anterior pituitaries, tissues in which TRH synthesis has been previously suggested. IR-proTRH was found in all the samples ranging from 42-775 fmol/mg proteins. Size exclusion chromatography identified a major 25-35 kDa form and a minor 4-8 kDa form. The existence of the major form was confirmed by immunoblotting. The results suggest that both human hypothalamic and normal or adenomatous anterior pituitary tissues synthesize similar IR-proTRH forms.

Detection of thyrotropin-releasing hormone (TRH) mRNA by the reverse transcription-polymerase chain reaction in the human normal and tumoral anterior pituitary.

To investigate the presence of TRH mRNA in the human anterior pituitary tissue, total RNA from human normal and tumoral anterior pituitary, hypothalamus (positive control) and muscle tissues (negative control) was reverse transcribed (RT) to the first strand of cDNA. RT products were then amplified by polymerase chain reaction (PCR) using a set of three exon-specific primers (two external 5' and 3' primers and one internal 3' primer) for a target sequence of the TRH gene including an intronic sequence of about 650 base pairs (bp). Southern analysis of the RT-PCR products specifically hybridizing with a 45-mer TRH probe showed two bands of the predicted sizes (399 and 351 bp) far more intense in hypothalamus than in normal and tumoral anterior pituitary tissue. The 399 and 351 bp RT-PCR products contained the BglII enzyme restriction site included in the TRH cDNA sequences spanned by the primers and the two respective digested fragments which were, as predicted, 337 and 289 bp long, hybridized with the TRH probe. Based on these results, we can conclude that the RT-PCR products generated from RNA tissue were the target TRH sequences in the human normal and tumoral anterior pituitary tissue as well as in the hypothalamus. Our data imply TRH gene expression in the human anterior pituitary.