Properties of acetylcholinesterase and non-specific cholinesterase in rat superior cervical ganglion and plasma

Amphiphile dependency, solubility in aqueous solutions, and sensitivity to proteolysis of acetylcholinesterase (AChE) and nonspecific cholinesterase (nsChE) in the rat superior cervical ganglion were studied and compared to properties of soluble plasma cholinesterases. Ganglion AChE shows strong amphiphile dependency: an amphyphilic substance must be present in the homogenizing medium in order to obtain maximal apparent enzyme activity. Apparent activity of AChE solubilized in Ringer's solution was also increased after subsequent addition of a detergent. The 4 S molecular form, predominant in this extract (corresponding to the fastest electrophoretic band), is very sensitive to papain proteolysis but can be protected by a detergent. This molecular form therefore carries an important hydrophobic domain and is probably membrane bound in situ. The 10 S form of ganglionic AChE, extracted in Ringer's solution, is probably a soluble enzyme since, like soluble plasma enzymes, it is not amphiphile dependent and is rather resistant to proteolysis. Ganglion nsChE is more water soluble, less amphiphile dependent and more protease resistant than AChE.     

Cytochemical demonstration of cholinesterase in follicle cells and parafollicular (C-) cells of the rat thyroid gland

Summary The localization of cholinesterase in rat thyroid gland has been studied light- and electron-microscopically after incubation in an acetyl-thiocholin medium.The enzyme, a pseudocholinesterase, is found in follicle cells as well as in parafollicular (C-) cells.The distribution and volume of cholinesterase-containing cells have been investigated under normal conditions by means of a point count method. The results indicate some constancy in the pattern of distribution and in volume.This work was supported by a grant (A 1/65) from the Danish State Research Foundation.     

Oestrogen receptors in the rat adrenal gland

Cytosol from the adrenal gland of male and female rats contains a specific binding protein for oestradiol-17β. This protein has all the characteristics of a cytoplasmic oestrogen receptor. It is excluded by Sephadex G-200 gel filtration, has a sedimentation coefficient of 8–9 S by sucrose density gradient centrifugation in low salt and dissociates into a 4 S form by centrifugation in high salt (0.5 M KCl). The binding protein is heat sensitive and oestradiol-17β binding is eliminated by protease and by sulphydryl blocking reagents (2mM p-chloromercuriphenylsulphonate). The bound oestradiol dissociates very slowly at 0°C. The adrenal oestrogen receptors have a very high affinity for oestradiol-17β, but lower affinity for oestradiol-17α and do not bind testosterone, androstene-3,17-dione or corticosterone. Scatchard analysis of the saturation data for oestradiol revealed one class of high affinity binding sites with an apparent equilibrium constant of dissociation K_D at 0°C of 5.8 × 10⁻¹⁰M. The number of binding sites was calculated to be 70 fmol/mg cytosol protein. Cytosol fractions from androgen insensitive (tfm) male rats contain oestrogen receptors in amounts very similar to that of the normal littermates.     

Age-dependent increase in the non-specific cholinesterase activity of the capillaries in the rat neostriatum

Summary Histochemically demonstrable non-specific cholinesterase activity in the capillaries of the neostriatum of 3–5-month-old rats was much weaker than that of 24–27-month-old rats. In the young adult rats the activity was electron microscopically localized mainly in endoplasmic reticulum and perinuclear cisternae of the endothelial cells, while capillaries of old rats showed a positive reaction also in the basal lamina and outer cell membranes of glial processes.     

Age-dependent increase in the non-specific cholinesterase activity of the capillaries in the rat neostriatum

Histochemically demonstrable non-specific cholinesterase activity in the capillaries of the neostriatum of 3-5-month-old rats was much weaker than that of 24-27-month-old rats. In the young adult rats the activity was electron microscopically localized mainly in endoplasmic reticulum and perinuclear cisternae of the endothelial cells, while capillaries of old rats showed a positive reaction also in the basal lamina and outer cell membranes of glial processes.     

Nestin expression in rat adrenal gland

The constituents of the intermediate filament network of adrenal gland cells have not been deeply investigated in vivo. Adrenocortical cells have been reported to express cytokeratins and vimentin, but the intermediate filament components of the adrenomedullary cells are still unknown. Nestin is an intermediate filament protein that is mainly expressed in the developing nervous and muscle systems. It has been reported to be unable to form filaments by itself and it co-assembles with vimentin. Using immunocytochemical and biochemical approaches, the present study demonstrates that nestin is expressed in situ either in the cortex or in the medulla of adult rat adrenal glands. Nestin-negative cells prevalently form the zona glomerulosa whereas the zona fasciculata and the zona reticularis are mainly nestin-immunoreactive. Nestin-positive cells always express vimentin-like immunoreactivity but several cells apparently expressing only vimentin are detectable too. Nestin is also expressed by adrenomedullary cells that also display a faint vimentin-like immunoreactivity. We hypothesise that the inconstant detection of nestin in adrenocortical cells depends on their different functional moments. Moreover, even though our data do not allow to confirm vimentin in adrenomedullary cells, in situ detection of nestin in the adrenal medulla indirectly supports in vivo expression of vimentin in chromaffin cells.     

Localization of acetylcholinesterase and choline acetyltransferase in the rat pituitary gland

Summary Experiments were conducted to determine the presence of two cholinergic biomarkers, acetylcholinesterase (AChE) and choline acetyltransferase (ChAT) in the rat pituitary. A histochemical procedure for AChE was used to provide visualization of structures containing this enzyme. Radiochemical methods provided a sensitive assay for measuring ChAT activity. Nerve fibres staining for AChE activity were observed in the neurointermediate lobe, with the greatest concentrations appearing at the junction region with the pituitary stalk. Cells staining for AChE were found in the pars distalis and pars intermedia. ChAT activity correlated well with AChE distribution in pars nervosa and pars intermedia but not in pars distalis. The greatest levels of ChAT activity were in pars intermedia and the region where the stalk joins the pituitary. Significant values were also found for the pars nervosa. The presence of AChE and ChAT in pars intermedia and pars nervosa is evidence for a cholinergic innervation to these regions. In pars distalis, where other investigators have found muscarinic receptors, intense staining for AChE and absence of ChAT activity may indicate non-innervated, acetylcholine-sensitive sites.     

Catecholamines in the heart and adrenal gland of the STZ-diabetic rat

The concentrations of noradrenaline (NA), adrenaline (ADR), 5-hydroxyindoleacetic acid (5-HIAA), serotonin (5-HT) and dopamine (DOP) have been studied in the left ventricle and the left adrenal gland of control and streptozotocin (STZ) - treated rats at various intervals (12, 24, 30, 34, 38 and 42 weeks) after the induction of diabetes. The only amines detected in the heart were NA, 5-HIAA and DOP, whereas those detected in the adrenal gland were NA and ADR. Differential changes in the catecholamine concentrations occurred in the heart and the adrenal gland at different stages of the metabolic disorder. In the heart the initial changes in short-term diabetes included an increase in NA concentration but this did not persist in the longer term diabetic animals (30-38 weeks following STZ injection). In the adrenal gland there was an initial reduction followed by a steady increase in the concentration of NA and ADR throughout the period of the study.     

Tentative immunohistochemical demonstration of melatonin in the rat pineal gland

Summary In the present study an attempt was made to demonstrate melatonin in the rat pineal gland by means of immunohistochemistry. The anti-body used was raised against 5-methoxy-N-acetyltryptophan which is chemically similar to melatonin. Specific fluorescence was demonstrable only in pineals from rats killed during the night, when melatonin formation is high. It was restricted to parenchymal cells lying in a marginal zone of the organ. These results are discussed in relation to a subdivision of the pineal parenchyma into cortical and medullary areas.Supported by a grant of the Deutsche Forschungsgemeinschaft (VO 135/4) within the Schwerpunktprogramm Neuroendokrinologie     

Fine structural localization of acetylcholinesterase activity in rat submandibular gland

Using the indirect thiocholine method, the ultrastructural localization of acetylcholinesterase (AChE) activity in the normal rat submandibular gland was studied. Cytochemical demonstration of AChE is based on coupling the hydrolysis of acetylthiocholine iodide to the precipitation of heavy metal salts. AChE-associated reaction product was selectively revealed in the perinuclear space and in the endoplasmic reticulum of the intercalated duct cells, in some cells of granular convoluted tubules, and in the striated duct epithelium, as well as in the myoepithelial cells. Although AChE activity generally occurred inside the cells, electron-dense precipitates were shown in intercellular space and in the stroma of the gland. Fine localization of AChE activity was also found in nerve bundles, predominantly between axons and between axons and Schwann cell. Our observations indicate that AChE is synthesized in the epithelium of the ducts and in the myoepithelial cells of the salivary gland. It is not known yet whether this enzyme is released from the intracytoplasmic membrane system into the extracellular space and then transported to the regions of the gland innervation. Conceivably AChE synthesized in the submandibular gland cells could also be considered an inhibitory modulator of the regulatory functions of biologically active polypeptides.     

Autometallographic demonstration of gold in the adrenal gland of rats exposed to sodium aurothiomalate

The presence of gold was investigated in sections of the adrenal glands from rats which had been exposed to intraperitoneal sodium aurothiomalate (32 to 120 mg). Gold was histochemically detected in cortical endocrine cells, chromaffin cells and in fibroblasts and macrophages of both the cortex and medulla. Invisible traces of gold were silver enhanced by autometallography making them readily visible at both the light and electron microscopic levels. The intracellular staining intensity was dose-dependent. In general, the number as well as the staining intensity of individual cells, were highest in the zona glomerulosa and zona reticularis. In gold-containing cells the silver-amplified deposits were present in lysosomes.     

Immunohistochemical demonstration of androgen-binding protein in the rat prostatic gland.

Androgen-binding protein (ABP) is one of the best-characterized products of synthesis by the Sertoli cells in the rat. Although the exact physiological role of ABP remains to be determined, it has been widely used to study Sertoli cells and testicular function in this species. Since this protein is the principal carrier for testosterone in rat testis and epididymis, we decided to investigate ABP immunoreactivity (ABP-I) in androgen-dependent organs, including testicle, epididymides, prostate, and seminal vesicles. The location of ABP was investigated by immunohistochemistry using specific antisera against rat ABP. As previously described in the testis, rat ABP-I was identified in the seminiferous tubules within the cytoplasm of the Sertoli cells and the tubular luminae. The epididymis showed ABP-I only in epithelial cells of the proximal caput. We demonstrated ABP-I in the apical portions of epithelial cells of the rat prostate. Short-term castration and/or ligation of the efferent ducts did not suppress prostatic ABP-I. ABP-I was not present in seminal vesicles of control rats nor under any of the experimental conditions used throughout this study. The results also indicate the presence of ABP-I in prostatic epithelium, probably because of a mechanism similar to that described in epididymis. Our data support and enhance the concept that ABP may serve as a transmembrane carrier protein for androgens in androgen target organs in the male reproductive tract.     

Identification of the prolactin-releasing peptide-producing cell in the rat adrenal gland

Prolactin-releasing peptide (PrRP) is a novel peptide found in bovine hypothalamus as an endogenous ligand of an orphan G-protein-coupled receptor (hGR3). It is known that PrRP is widely distributed and plays roles in the central nervous system (CNS). In particular, PrRP acts as a neurotransmitter that mediates stress and activates the hypothalamo-pituitary-adrenal axis. On the other hand, only a few studies have so far been performed on PrRP in peripheral tissues. Among peripheral tissues, appreciable levels of PrRP are found only in the adrenal gland; however, the PrRP-producing cells in the adrenal gland have not been identified. In this study, we detected PrRP mRNA in the rat adrenal medulla. So, we tried to identify the PrRP-producing cells in primary culture cells of the adrenal medulla. We found immunopositive PrRP cells among the cultured cells from the adrenal gland, but not in the adrenal gland tissue, by means of immunocytochemistry. The PrRP immunopositive cells were double positive for tyrosine hydroxylase (TH) and for phenylethanolamine N-methyltransferase (PNMT), which indicates that PrRP may be produced in a part of the adrenaline cells in the adrenal gland. This is the first report that PrRP is produced in the adrenaline-containing cells of the adrenal gland.