Showing papers in "Medical biology in 1986"

Evaluation of the immunocytochemical method for amino acids.

Abstract: Free amino acids can be coupled to proteins by glutaraldehyde. Rabbits immunised with a bovine serum albumin-glutaraldehyde-amino acid conjugate form antibodies that recognise similar conjugates with brain proteins in glutaraldehyde-fixed tissue. Antisera raised against conjugated GABA (gamma-aminobutyrate), glutamate, aspartate, taurine, glutamine, or glycine were tested against a variety of small molecular compounds that had been fixed by glutaraldehyde to brain protein and immobilised on cellulose ester filters for processing together with the brain sections. This system permitted closely similar conditions for testing and immunocytochemistry. After removing antibodies against the carrier used for immunisation and against cross reacting amino acid conjugates the antisera showed a high specificity. The specific nature of the antisera was corroborated by solid phase adsorption to the homologous antigens and by inhibition experiments with free amino acids and amino acid-glutaraldehyde fixation complexes. After transection of the striatonigral pathway the ipsilateral substantia nigra was almost depleted of GABA-like immunoreactivity; this observation lends additional support to the selectivity of the GABA antiserum. A semiquantitative relation was established between the concentration of amino acid before fixation in a model system and the subsequent intensity of immunostaining. Similar model experiments suggested that the conjugation of an amino acid to brain protein with glutaraldehyde, and the immunoreactivity of the conjugates, may be significantly inhibited in the presence of high concentrations of other amino compounds.

Glucocorticoid action on connective tissue: from molecular mechanisms to clinical practice.

Abstract: Glucocorticosteroids are highly effective in treating various acute and chronic diseases, but their long-term use is often accompanied by side effects, such as osteoporosis of skeleton and bones and atrophy of the skin. Clinically, many of these side effects involve changes in connective tissue. Glucocorticoid effects on connective tissue metabolism are, however, sometimes beneficial for instance, in the treatment of keloids or autoimmune connective tissue diseases. Recent advances in the biochemical technology have provided tools to examine the molecular mechanisms by which glucocorticoids affect connective tissue. These studies have shown distinct alterations in the extracellular matrix as a result of glucocorticoid treatment. This knowledge is useful for the further development of glucocorticosteroids with desirable action spectrum and with minimal side effects.

Histochemistry and function of bombesin-like peptides.

Abstract: Bombesin-like peptides are a group of brain-gut peptides found in several neuronal groups in the central nervous system and in peripheral intrinsic gut neurons and sensory neurons. The SIF cells (small intensely fluorescent cells) of the sympathetic ganglia also contain immunoreactivity for these peptides. These peptides are present in some pulmonary endocrine cells and tumors originating from these cells. Chromatographic studies suggest that several different peptides, possibly originating from at least two different precursors, are present in mammalian tissues. Authentic amphibian peptide bombesin does not appear to be found in mammalian tissues. Functional studies indicate that these peptides may be involved in many important functions, including sensory transmission, regulation of central autonomic pathways, thermoregulation, secretion of pituitary hormones, gastric and pancreatic secretion, food intake and satiety.

Metabolism and transport of amino acids studied by immunocytochemistry.

Abstract: The immunocytochemical method for demonstrating amino acids makes it possible to study accumulation and depletion of amino acids in individual tissue compartments resulting from experimental manipulations. We have incubated hippocampal slices in oxygenated Krebs solution, containing various additives, under basal conditions and during synaptic release of transmitters evoked by elevated K+ concentrations or by veratrine. Immunoreactivities for glutamate (Glu-LI), aspartate (Asp-LI), glutamine (Gln-LI), gamma-amino-butyrate (GABA-LI) and taurine (Tau-LI) have been demonstrated by specific antibodies after fixation of the slices in glutaraldehyde. Prolonged depolarisation depleted Glu-LI, Asp-LI and Gln-LI from nerve-ending-like structures. GABA-LI was less affected and Tau-LI not affected at all. The depletion of immunoreactivities could be prevented by metabolic precursors of transmitter amino acids, notably glutamine. This effect of glutamine was abolished by inhibiting glutaminase with diazooxonorleucine. Glu-LI, Asp-LI, GABA-LI and Gln-LI accumulated in astroglial cells during conditions of prolonged depolarization-induced release. The accumulation of GABA-LI in glia was strongly increased by inhibition of aminotransferases by aminooxyacetic acid. The described changes in Glu-LI were prevented by low Ca2+/high Mg2+, and promoted when the glial enzyme glutamine synthetase was inhibited by methionine sulfoximine. D-Aspartate, a metabolically inert competitive inhibitor/substrate for high affinity uptake of glutamate, inhibited the accumulation of Glu-LI in glia. The results confirm the biochemically derived theories on metabolic compartmentation in nervous tissue, and add knowledge on the dynamics of the cellular distribution of amino acids. They also indicate the possibilities offered by the present approach for studying metabolism and pharmacology at the cellular level.

Monoclonal antibodies to Escherichia coli heat-labile enterotoxins: neutralising activity and differentiation of human and porcine LTs and cholera toxin.

Abstract: Forty-four monoclonal antibodies (MAbs) prepared against heat-labile enterotoxins (LTs) from human (LTh) or porcine (LTp) E. coli isolates were characterised, especially with regard to their reactivity with epitopes shared with the heterologous LT and/or cholera toxin (CT), and their toxin neutralising activity. Of 24 MAbs against LTh (all directed against the B subunit portion) 12 cross-reacted with LTp and CT, 4 with LTp but not CT, and 1 with CT but not LTp; 7 MAbs reacted with LTh epitope(s) not shared by either LTp or CT. Among 20 MAbs against LTp (9 directed against the B subunits and 11 against the A subunit) 2 cross-reacted with LTh as well as CT, 13 with LTh but not CT, and 5 MAbs were specific for LTp. Irrespective of whether the anti-LT MAbs were directed against shared or unshared epitopes, or against the A or B subunits, they neutralised their homologous toxin in direct proportion to their toxin-binding titre. The results show how minute differences in enterotoxin primary structures e.g., the LTh and LTp B chains differ in only 4 of 103 amino acid residues, are associated with antigenic epitopes against which toxin-differentiating MAbs with neutralising activity can be produced. Such MAbs are promising tools for species-specific diagnostic detection of enterotoxins in clinical specimens.

Effects of neuropeptide Y (NPY) at the sympathetic neuroeffector junction. Can pre- and postjunctional receptors be distinguished?

Abstract: Neuropeptide Y (NPY) is widely distributed in central and peripheral neurons. In sympathetic postganglionic neurons, NPY coexists with noradrenaline. NPY and its structural relative peptide YY (PYY) appear to exert three principally different effects at the sympathetic neuroeffector junction. Firstly, NPY has a direct postjunctional effect; this effect is manifested as a vasoconstriction when studied on the guinea pig iliac vein. Secondly, NPY has an indirect postjunctional effect in that it potentiates the response to various vasoconstrictors; this was studied on the rabbit femoral artery and vein, using noradrenaline and histamine, respectively, as vasoconstrictors. Thirdly, NPY acts prejunctionally in that it suppresses the release of noradrenaline from sympathetic nerve terminals; this was studied in the rat vas deferens. The aim of the investigation was to examine whether the three effects of NPY were mediated by the same type of receptor. For this purpose, we examined the effects of a series of NPY-related peptides, namely NPY, PYY, desamido-NPY, and five C-terminal fragments (NPY 19-36, NPY 24-36, PYY 13-36, PYY 24-36 and PYY 27-36). NPY and PYY were active in all three assay systems. The C-terminal amide appears to be crucial for maintaining the biological activity, since desamido-NPY was inactive in the three test systems. Interestingly, PYY 13-36 was almost as active as NPY and PYY in suppressing the electrically evoked contractions of the vas deferens; PYY 13-36 was inactive in the two other test systems. None of the shorter fragments had any biological activity.(ABSTRACT TRUNCATED AT 250 WORDS)

The spread of brain oedema in hypertensive brain injury.

Abstract: Severe hypertension in humans may lead to fibrinoid necroses of cerebral blood vessels with small hemorrhages and cystic necroses. Similar lesions have also been reported in the experimental model of stroke-prone spontaneously hypertensive rats (SHRSP). We examined the genesis and spreading pattern of the brain oedema in SHRSP. The extravasation of plasma proteins was visualized with the Evans-Blue or the immunoperoxidase method. Most commonly the leakage occurred in the grey matter of the cerebral cortex or basal ganglia. The spreading pattern followed that of vasogenic brain oedema with a local spread in the grey matter and an extensive one in the white matter. In addition, we detected a novel pathway upwards along the perivascular spaces of the penetrating vessels as well as laterally in the subpial zone. This route is likely to serve also as a drainage channel for the oedema into the cerebrospinal fluid in the subarachnoidal space. Transfer of the extravasated proteins from the white matter to the ventricles was also observed, confirming that this previously described pathway for the resolution of oedema fluid exists in the SHRSP model of vasogenic brain oedema.

Free radicals and anti-inflammatory drugs.

Abstract: It is widely accepted that oxygen radicals and other activated oxygen species are potent mediators or modulators of acute and chronic inflammation. They are common products of cellular metabolism, where their concentrations are controlled by different protective mechanisms such as superoxide dismutase, catalase etc. In addition to their destructive effects on various macromolecules, oxygen radicals or their products are beneficial e.g., in killing bacteria. Oxygen radicals are also closely related to arachidonic acid metabolism, prostanoids (cyclo-oxygenase pathway) and leukotrienes (lipoxygenase pathway) as well as to lipid peroxidation in general. Also, the classical mediators of inflammation, histamine and bradykinin, may be connected with the release of oxygen radicals. In addition to the earlier described inhibition of formation of prostanoids, non-steroidal anti-inflammatory drugs can inhibit production of free radicals or scavenge those already formed. Antirheumatic penicillamine and allopurinol used in the treatment of gout also act on oxygen radicals. New anti-inflammatory compounds with antioxidant properties will be developed in the near future.

Leukosialin, a major sialoglycoprotein on human leukocytes as differentiation antigens.

Abstract: Most blood cells derived from the bone-marrow are known to possess only a limited number of heavily sialylated glycoproteins. We have recently isolated a major sialoglycoprotein on leukocytes and found that this glycoprotein, termed leukosialin, is ubiquitously present on various human leukocytes, granulocytes, monocytes/macrophages and T- and B-lymphocytes. Our studies showed that leukosialin is significantly glycosylated by O-linked oligosaccharides (90 chains/molecule). The structures of those O-linked oligosaccharides are characteristic to each cell lineage and maturation stage. The polypeptide portion of these molecules are, however, apparently the same, with a molecular size of 52 KDa. So it will be interesting to explore the possibility that leukosialin expresses different functions by having different O-glycosylation in a variety of hematopoietic cells.

Cultivation of endothelial cells: limitations and perspectives.

Abstract: Different research areas might gain from the use of cultured endothelial cells. An understanding of how endothelial cells interact with hormones, plasma constituents and drugs, could make a fresh contribution to knowledge of the functional and pharmacological responses of different organs. In vitro cultures of EC are an easy tool for these studies. The culture medium can be artificially modified and the biological responses monitored. This technique, however, still presents limitations. These are: the relatively few cells that can be obtained; the limited number of vascular districts that can be used as cell sources; and the functional modifications of the cells when kept in tissue culture.

Effects of physiological and abnormally elevated prolactin levels on the pituitary-testicular axis.

Abstract: Prolactin can influence testicular function both directly, and indirectly via altering release of gonadotropins from the pituitary. Although numerous effects of prolactin on male reproductive functions have been described, only a few were demonstrated in more than one species. These include effects on male accessory reproductive glands, on testicular luteinizing hormone receptors, on the release of gonadotropins and on sexual behavior. In rodents, prolactin appears to play a physiological role in the pituitary regulation of testicular function. This is especially pronounced in the golden hamster. In this seasonally-breeding species, alteration of prolactin release is one of the mechanisms mediating the effects of photoperiod on the testis. In the hamster, prolactin is required for the maintenance of luteinizing hormone and prolactin receptors in the testis and treatment with prolactin can completely reverse testicular atrophy induced by exposure to short photoperiod. In both men and rats, excessive release of prolactin (hyperprolactinemia) leads to suppression of sexual behavior and gonadotropin release. These effects appear to be due to the action of prolactin on the central nervous system. Most, if not all, of the effects of prolactin exhibit striking variability among species. Moreover, prolactin can exert differential effects on the same target tissue in the same species, depending primarily on the dose.

Macrophage procoagulant factors--mediators of inflammatory and neoplastic tissue lesions.

Abstract: Mononuclear phagocytes, a specialized cell lineage comprising bone-marrow precursors, blood monocytes and tissue macrophages, can interact with blood coagulation mechanisms with resulting thrombus formation or extravascular fibrin accumulation. Such procoagulant activity is usually activation dependent and requires interaction of the cells with immune or nonimmune stimuli. In the former case (e.g., alloantigens, soluble protein antigens) collaboration of mononuclear phagocytes with T lymphocytes is necessary and is mediated by cell-to-cell contact or lymphokines. Prototype of a direct acting stimulus is bacterial lipopolysaccharide. Mononuclear phagocyte procoagulant activity is expressed in the form of cell membrane-bound or released factors which display molecular heterogeneity. They include the initiator of the extrinsic clotting pathway, tissue factor, known clotting proteases such as factors V and VII, and novel proteolytic enzymes including prothrombinase and a factor X activator. Mononuclear phagocyte procoagulants are pathogenetically involved in generalized disorders with intravascular coagulation and thromboembolic phenomena. These disorders, exemplified by the Shwartzman reaction and possibly by paraneoplastic thromboembolism, are initiated by blood monocytes. Extravascular fibrin deposition can be initiated by tissue-infiltrating monocytes and macrophages in disease states such as acute renal allograft failure and solid tumours.

Nucleic acid hybridization: from research tool to routine diagnostic method.

Abstract: The nucleic acid hybridization reaction is extremely specific and thus a valuable tool for the identification of genes or organism of interest. The increasing use of nucleic acid hybridization in applied fields like diagnostic medicine has led to the development of more convenient hybridization assays than those originally used in basic research. In conventional nucleic acid hybridization methods immobilized nucleic acids are detected on a filter by a radiolabelled probe. Sandwich hybridization is a simple test format for the analysis of unpurified biological material, but has the disadvantage of a slow reaction rate. Solution hybridization methods are fast and easy to perform provided that a method to separate the formed hybrids from the reaction mixture is available. In non-isotopic detection the nucleic acid probe is modified with a chemical group, which is identified with a labelled detector molecule after hybridization. The low sensitivity of detection is the main problem in nucleic acid hybridization methods. Procedures to amplify the detectable signal or the amount of detectable nucleic acid sequences are potential solutions to this problem. The new hybridization methods have successfully been used for some applications, but still need to be combined into well performing tests to be applicable to any desired purpose.

Paracrine role of Sertoli cells.

Abstract: Data from several experimental approaches strongly suggest that Sertoli cells exert a paracrine control of the two main testicular functions, androgen secretion and spermatogenesis. Further evidence supporting this role of Sertoli cells was obtained by coculture of Sertoli cells with other testicular cells. Coculture of pig or rat Sertoli cells with pig Leydig cells produces an increase in the hCG receptor number and an increase in the steroidogenic activity of Leydig cells. Pretreatment with FSH further increases the values of these two parameters. These biochemical changes were associated with ultrastructural changes in Leydig cells. The effects of Sertoli cells on Leydig cells depend upon the ratio of the two cells and on the substrate in which the cells are cultured. Moreover, Leydig cells produce an increase in the FSH receptor number and in the FSH stimulation of plasminogen activator production by Sertoli cells. Coculture of rat or pig Sertoli cells with rat germ cells, induces an increase in the RNA and DNA biosynthetic activities of germ cells. Most of the stimulatory effects seemed to be mediated by diffusible factors, secreted by Sertoli cells, but full expression of the stimulatory action was observed when germ cells were in contact with other cells. In this coculture system, a fraction of rat germ cells containing mainly mature forms of spermatocytes inhibited rat Sertoli cell RNA and DNA synthesis, but had no effect on pig Sertoli cells. On the contrary, a fraction of rat germ cells richer in spermatogonias and preleptotene spermatocytes, stimulated rat Sertoli cell DNA synthesis but was without effect on pig Sertoli cells. These results clearly show that the stimulatory effects of Sertoli cells on Leydig and on germ cells which are not species specific are mediated mainly by diffusible factors, the secretion of which is regulates by FSH.

Comparative histochemical distribution of nerve fibres storing noradrenaline and neuropeptide Y (NPY) in human ovary, fallopian tube, and uterus.

Abstract: Nerves containing noradrenaline were studied by formaldehyde-induced fluorescence and neuropeptide Y (NPY) was visualised by immunohistochemistry in the human ovary, Fallopian tube and uterus. All structures were richly supplied with noradrenergic fibres closely associated with the vascular and non-vascular smooth musculature. NPY-containing nerve terminals were consistently fewer, particularly in the ovary. The best developed nerve supply was found in the tubal isthmus and uterine cervix. Vessels were usually innervated by plexuses of nerves, containing NPY as well as noradrenaline. The discrepancy between the number of the two types of histochemically distinguishable nerves suggests that, if noradrenaline and NPY are co-localised in one and the same nerve, this is not a constant phenomenon in the human female reproductive tract.

Evidence for PHI-immunoreactive nerve fibres in the human skin: coexistence with VIP?

Abstract: Using indirect immunofluorescence methodology, PHI-like immunoreactivity was found in a certain subpopulation of nerve fibres and terminals of the human skin. The immunoreactive fibres were mainly seen close to and around blood vessels and sweat glands, and they were of a fine-calibre type with smooth preterminal axons and a sparse plexus of varicosities at their terminal field. Furthermore, they were also observed around hair follicles, though more rarely around sebaceous glands. Finally, single PHI immunoreactive fibres could be seen in the close vicinity of the erector pili muscles. These fibres in all probability represent peripheral branches of the autonomic nervous system. Single (somatic?) immunoreactive fibers were, however, also found in the apical parts of the dermis, close to the epidermal-dermal junctional zone. The occurrence of VIP was also analysed and found to be similar to that of PHI. Thus, the present data point to a probable coexistence of PHI and VIP, a possibility that should be taken into account when discussing functional effects of VIP in human skin.

Transmitters and modulators in the superior cervical ganglion of the rat.

Abstract: Several transmitters and modulators have been found to exist in the superior cervical ganglion of the rat. It has been shown that noradrenaline is present in the principal neurons and dopamine is the main catecholamine in the small intensely fluorescent cells. 5-hydroxytryptamine and histamine have been investigated immunohistochemically and found to be present only in the small intensely fluorescent cells of an adult rat, in the same cells which are also immunoreactive to tyrosine hydroxylase. On the other hand, enkephalins which were studied using highly specific antibodies against methionine-enkephalin-arginine-phenylalanine and methionine-enkephalin-arginine-glycine-leucine were found in the principal neurons and nerve fibres. Ligation studies showed that enkephalins in the superior cervical ganglion of the rat are both of intrinsic and extrinsic origin. It is evident that the transmission in the sympathetic ganglion is complex. The possible function of the transmitter and modulator candidates is discussed.

Rapid and bacteria-dependent in vitro hydrolysis of iodothyronine-conjugates by intestinal contents of humans and rats.

Abstract: Faecal suspensions from healthy humans, conventional (CV), germ-free (GF) and intestine-decontaminated (ID) rats were tested for the in vitro hydrolysis of 125I-labelled iodothyronine sulphates and 3,3',5-triiodothyronine glucuronide (T3G). Whereas 20-fold diluted human and CV rat faecal suspensions hydrolyzed up to 90% of the sulphates, no hydrolysis was observed in 5 times diluted faecal suspensions of GF and ID rats. These results add further weight to the assumption that intestinal iodothyronine sulphatase activity is of bacterial origin. Twenty times diluted human and CV rat faecal suspensions hydrolyzed approximately 80% of the T3G. In the 5 times diluted faecal suspensions of GF and ID rats up to 15% hydrolysis of T3G was still observed. It was concluded that the major part of the gastrointestinal iodothyronine glucuronidase activity is produced by bacteria. The remaining activity presumably originates from gastrointestinal mucosal cells.

Acceleration of p-aminohippurate excretion in immature rats by dexamethasone treatment.

Abstract: In 5-, 10- and 15-day-old rats repeated administration of dexamethasone caused a dose-dependent increase of p-aminohippurate (PAH) excretion. Remarkably, dexamethasone has no influence on PAH excretion in adult rats. The effect of treatment in young rats cannot be explained by an increase in the glomerular filtration rate. In 10-day-old rats GFR shows a tendency to increase. In renal cortical slices from 5-day-old rats PAH transport is increased following dexamethasone treatment, whereas in 10- and 15-day-old rats an increase of kidney mass seems to be responsible for acceleration of renal excretion of PAH after administration of dexamethasone. In 5-day-old rats only the protein content is statistically significantly increased after dexamethasone treatment.

Pentazocine and codeine: effects on human performance and mood and interactions with diazepam.

Abstract: Effects of two opioid analgesics on performance and their interactions with diazepam were studied double-blind and cross over in ten healthy students. At two-week intervals the subjects received first a single oral dose of placebo, codeine (100 mg) or pentazocine (75 mg). Then, 1 h 30 min later they were all given diazepam (0.25 mg/kg) orally. Lastly, naloxone (0.4 mg) was injected intravenously at 4 h. In addition to this, the subjects on pentazocine received a second 75 mg dose at 3 h. Codeine and pentazocine alone failed to affect performance in objective tests (body sway, digit symbol substitution, flicker fusion, Maddox wing, nystagmus) recorded at 1 h 30 min. Visual analogue scales showed subjective drug effects: pentazocine made the volunteers talkative, contented, interested and energetic, whilst codeine rendered them mentally slow. 75 mg of pentazocine and 100 mg of codeine produced comparable plasma opiate activity (determined in morphine equivalents) according to radioreceptor bioassay with [3H]-dihydromorphine as a ligand. Impaired performance was clear at the tests done 1.5 and 2.5 h after diazepam. No major interactions were found between opiates and diazepam in objective tests with the exception that nystagmus was stronger after the combined treatment than after diazepam alone. Codeine reduced the absorption of diazepam. Subjectively codeine and pentazocine counteracted the effects of diazepam. The subjects overestimated their performance after opiate + diazepam when compared to diazepam alone.(ABSTRACT TRUNCATED AT 250 WORDS)

Endothelium--an organized monolayer of highly specialized cells.

Abstract: Research on endothelial cells has expanded in near exponential fashion during the last few years and has become a noteworthy field of both clinical and experimental investigation. Endothelium is indisputably a highly specialized tissue which mediates and controls many physiological and pathological processes. It can no longer be regarded as a passive semipermeable barrier between blood and tissues. The endothelial cell--the structural unit of endothelium--is, consequently, a metabolically highly active cell with many unique characteristics.

Localization and possible function of polyamines in protein and peptide secreting cells.

Abstract: Three different cytochemical methods, the formaldehyde-fluorescamine and the ortho-phtalaldehyde fluorescence cytochemical methods as well as immunocytochemistry have been developed for localising the polyamines spermidine and spermine in tissue. All three methods produce identical results and show polyamines to occur inter alia in high concentrations in certain protein- and peptide-secreting cells. Many of these cells also show the capacity to metabolise monoamines and belong to the amine content or amine precursor uptake and decarboxylation (APUD) series. In cell types where fluorescence microscopical resolution allows, most polyamines appear to be localised to secretory granules. Moreover, studies on isolated pancreatic islets reveal active and glucose-dependent polyamine biosynthesis to occur in insulin cells. Possible function of polyamines in secretory granules are discussed in the light of the above findings.

Classification of inhibitory amino acid receptors in the mammalian nervous system.

Abstract: Electrophysiological and pharmacological evidence is summarized for the existence of an inhibitory receptor system operated by glycine and another two separate systems operated by gamma-aminobutyric acid (GABA) through GABA-A and GABA-B receptors, respectively. Claims for subclasses of GABA-A receptor are critically reviewed and found not-proven. A quantitative pharmacological profile of the GABA-A receptor and associated regulatory sites for picrotoxin, barbiturates and benzodiazepines on the dorsal funiculus of the rat cuneate nucleus is described. When compared with this profile and the pharmacological properties of the glycine receptor complex, the effects of taurine cannot be entirely explained by actions on these two receptor systems.

Cell interactions in the rat seminiferous epithelium with special reference to the cellular distribution of calmodulin.

Abstract: Spermatogenesis is dependent on stimulation by pituitary gonadotropins, FSH and LH. Targets for these hormones are Sertoli and Leydig cells, respectively. The effect of LH on spermatogenesis is mediated by testosterone. In addition to hormones, interactions between neighbouring cells seem to regulate spermatogenesis. This is reflected by cyclic secretion of several proteins by the seminiferous epithelium, of which plasminogen activator is a good example. While it is controlled by FSH a factor in preleptotene spermatocytes may also influence its cyclic secretion pattern. Both testosterone and FSH have a cyclic action in the seminiferous epithelium. The androgens seem to predominate in stages where spermiation, onset of meiosis and the highest rate of RNA transcription occur (VII-XI). FSH is most active in stages that contain meiotic divisions and early spermiogenesis (XIII-V), greatly stimulating the production of cyclic AMP. To investigate further the "second messengers" of FSH action in the seminiferous epithelium, the cellular distribution of calmodulin was analyzed using an indirect immunocytochemical method. In addition to their clear cyclic distribution in primary spermatocytes and in spermatids, Sertoli cells also showed a bright calmodulin immunofluorescence that was apparently cyclic. These observations suggest a local calmodulin and calcium regulation of spermatogenesis.

The different mechanisms for suppression of pituitary and testicular function.

Abstract: The differential mechanisms reducing androgen secretion by LHRH agonists are discussed with relevance to clinical therapy. LH secretion can be desensitised by exposure to agonists using high doses, frequent injections or sustained release/constant infusion. The desensitized pituitary is refractory to hypothalamic stimulation. Pituitary receptor suppression is associated with depletion of pituitary gonadotrophin content, and a decline of LH and FSH secretion to a basal rate. Recovery of LH responsiveness to endogenous LHRH stimulation requires restitution of gonadotrophin content (about 7 days in rats). After long-term infusions in normal men, testosterone secretion recovers within 7-10 days. The binding capacity of testicular LH/hCG receptors is reduced in rats after supraphysiological gonadotrophin stimulation, by agonists or directly by hCG, concomitantly the steroidogenic capacity of the testis in vitro is impaired. Qualitative changes in androgen biosynthesis are a marked fall in testosterone production and dose-dependent enhancement of progesterone production. After 12 months of buserelin injections, the changes in hCG-stimulated rat testes are an increased ratio of progesterone/17-OH-progesterone (inhibition of 17-hydroxylase), a reduced capacity for secretion of androstenedione and testosterone (block of 17,20-desmolase), and increased 5 alpha-pregnane-3,20-dione (this steroid inhibits the 17,20-desmolase, similarly to progesterone). After treatment, Leydig cell function recovers completely. Leydig cell hyperplasia is observed as a result of the steroidogenic changes. These findings in rats have not been observed in dogs, monkeys or in humans.(ABSTRACT TRUNCATED AT 250 WORDS)

Type I collagen messenger RNA levels in experimental granulation tissue and silicosis in rats.

Abstract: A complementary DNA (cDNA) clone was constructed for chick pro alpha 2(I) collagen mRNA. This and previously constructed cDNA clones for chick and human pro alpha 1(I) collagen mRNAs were used to measure levels of type I procollagen messenger RNAs in two experimental models: viscose cellulose sponge-induced experimental granulation tissue and silica-induced experimental lung fibrosis in rats. Both Northern RNA blot and RNA dot hybridizations were used to quantitate procollagen mRNAs during formation of granulation tissue. The period of rapid collagen synthesis was characterized by high levels of procollagen mRNAs, which were reduced when collagen production returned to a low basal level. The rate of collagen synthesis and the levels of procollagen mRNAs during the period of rapid reduction in collagen production did not, however, parallel with each other. This suggests that translational control mechanisms are important during this time in preventing overproduction of collagen. In silicotic lungs, the early stages of fibroblast activation follow a similar path but appear faster. At a later stage, however, the RNA levels increase again and permit collagen synthesis to continue at a high rate, resulting in massive collagen accumulation.

Pro-opiomelanocortin-derived peptides in the testis: evidence for a possible role in Leydig and Sertoli cell function.

Abstract: Pro-opiomelanocortin (POMC)-derived peptides such as beta-endorphin, ACTH, and MSHs were identified in the testis where they were exclusively localized in Leydig cells. Examination of testicular extracts by a variety of physicochemical and immunological techniques indicates that the processing of the POMC in the testis is very similar to that in the brain. By using a cDNA probe, the POMC-like mRNA present in total testis and cultured Leydig cells was 150-200 bases shorter than that in the hypothalamus and pituitary. In addition, POMC mRNA was localized to Leydig cells using in situ hybridization. The expression of the POMC-like gene and the accumulation of POMC-derived peptides in Leydig cell were shown to be under the control of gonadotropin. As the testis contains low concentrations of POMC-derived peptides, we suggested that they may be implicated in local regulatory events within this organ. This postulate was supported by results from in vivo and in vitro experiments suggesting that different portions of the POMC-molecule may have opposite effects on Sertoli cell functions. For example, MSHs increased cAMP accumulation and aromatase activity in these cells, while opioids inhibited Sertoli cell proliferation and androgen binding protein (ABP) secretion. Furthermore, following intratesticular administration of opiate antagonists, testosterone production was reduced, suggesting that Leydig cell function may be also modulated by beta-endorphin and/or other related peptides. Taken together, these studies support the hypothesis of a possible role of POMC-derived peptides in testicular function.

Plasma vasopressin levels during and after cardiopulmonary bypass in man.

Abstract: The effect of cardiopulmonary bypass (CPB) using high dose fentanyl anaesthesia on the concentrations of plasma arginine vasopressin (pAVP), serum electrolytes and osmolality was studied in 12 patients by repeated sampling up to 4th postoperative day. These values were also followed in another 20 patients for the first postoperative day. Fentanyl abolished the pAVP response often seen in major operations but not that produced by CBP. The pAVP concentration 4.8 +/- 0.8 pg/ml immediately after sternotomy increased to 27.2 +/- 1.5 pg/ml (P less than 0.001) after 5-10 minutes on CPB. By the 4th postoperative day the pAVP levels had reached normal values. The main reason for the elevated pAVP concentrations seems to be the onset of CPB, which provokes a fall in mean arterial pressure leading to pAVP release.

Colloidal gold probes in immunocytochemistry. An optimization of their application in light microscopy by use of silver intensification procedures.

Abstract: Colloidal gold particles are the markers of choice for ultrastructural localization of antigens By reducing gold chloride with tannic acid and trisodium citrate, a broad range of narrowly determined particle sizes can be obtained Such particles can easily be coupled to a number of proteins and the resulting conjugates are conveniently purified on a gel-chromatography column Their application in light microscopy requires an amplification step with a silver physical developer Silver-intensified colloidal gold probes can advantageously be used for immunostaining of cryostat, paraffin and plastic sections Moreover, permeabilized cultured cells and whole-mount preparations can also be stained with gold-silver techniques Silver intensification does not affect reactivity of a number of tissue antigens, thus permitting double staining combinations with immunoperoxidase or immunofluorescence methods

Tofizopam selectively increases the action of anticonvulsants.

Abstract: The effect of tofizopam, a 3,4-benzodiazepine (BZ) derivative, in modulating the anticonvulsive action of various drugs was investigated in mice. Electric shock and intravenous infusion of bicuculline were used as convulsive agents. Tofizopam increased the action of clonazepam, diazepam and flunitrazepam against bicuculline. The anticonvulsive effect of diazepam against electroshocks was augmented only slightly. Tofizopam failed to alter the actions of carbamazepine, phenobarbital, phenytoin, or sodium valproate against either of the convulsive stimuli. Both in vitro and in vivo, tofizopam has been shown to stimulate the binding of 1,4-BZs (e.g., flunitrazepam) to BZ receptors. Similarly, tofizopam enhances the binding of muscimol to GABA receptors. Although several anticonvulsants act on the GABA-BZ receptor complex, tofizopam seems to modify selectively the anticonvulsive action of 1,4-BZs, and this effect is seen better in bicuculline-induced seizures than in electroshocks.