Ultrastructural cytochemistry of human spermatozoa]

Enzymatic activities and repartition of glycoproteins were studied with electron microscopy in human ejaculated spermatozoa. Enzymatic activities are localised in the head of spermatozoon: arylsulfatase in the acrosome, acid phosphatase in the periacrosomal cytoplasm. Phosphotungstic acid at low pH and collo?dal iron allow detection of glycoproteins and acid groups on the sperm cell surface. Glycoproteins are present in the acrosome. These results are slightly different to those obtained in other species.     

Ultrastructural radioautography of the incorporation of tritiated leucine by the rat adrenal medulla in vivo

Summary Sections of tissues from the adrenal medullae of young rats were subjected to radioautography after a single intravenous injection of L-leucine 4,5 ³H to identify the sites of synthesis and follow the migration of newly-formed proteins in both adrenaline-storing (A) and noradrenaline-storing (N) cells. As early as 2 min after injection of leucine ³H, the label was highest in the rough endoplasmic reticulum (RER) of A and N cells, suggesting that cisternal ribosomes are sites of protein synthesis. By 5 and 10 min, much of the label had migrated from the RER into the Golgi complex of both cell types. Some label was already present over the secretory granule matrix (chromogranins) by 2 min but the peak was reached at 1 h in both A and N cells. By 4 h, the label over the secretory granules had diminished, indicating a release of newly-synthetized chromogranins outside the cells. The label over the hyaloplasm was relatively high at 2 min but it decreased rapidly to low levels. In contrast, the label over the cell surface continually increased to reach the highest levels among all organelles at 4 h in both cell types. The pattern of increment of the label over the cell surface suggests that the newly-formed proteins of these sites are also synthetized in the RER, pass through the Golgi complex and are transported in the hyaloplasm, before reaching the surface of A and N cells.Supported in part by the Quebec Heart Foundation, the Medical Research Council of Canada (Grant MT-1973), the J.-L. Levesque Foundation, the Ministry of Education of Quebec (Formation de Chercheurs et Action Concertée) and the Fond de l'Université de Montréal (Cafir)     

Ultrastructural cytochemistry of the mammalian cell nucleolus

In the present review on the organization of the mammalian cell nucleolus, we report and discuss data obtained during the past 10 years by means of cytochemical and immunocytochemical ultrastructural techniques. Particular emphasis is placed on the following topics: location of the nucleolus organizer regions in interphasic nucleolar components, structure of nucleolar chromatin in situ, and the structure-function relationship of the nucleolar components. The cytochemical and immunocytochemical results are compared and the concordant data are stressed for each topic.     

Ultrastructural carbohydrate cytochemistry of gastric epithelium

Synopsis On examination with ultrastructural methods for visualizing thevicinal glycols and acid groups of complex carbohydrates, the most superficial surface epithelium of the rat gastric corpus displayed biphasic mucous droplets consisting of a cortex of hexose-rich (i.e. periodate-reactive) neutral mucosubstance and an uncharacterized denser core plus monophasic droplets with the neutral mucosubstance. In many surface epithelial cells of the foveolae, the biphasic and monophasic droplets with the neutral mucosubstance intermingled in varying proportions with monophasic droplets showing uniform periodate reactivity, a variable degree of dialyzed ironbinding—demonstrative of acidic glycoconjugate, and high iron—diamine affinity—demonstrative of sulphomucin. Deep foveolar epithelium displayed only monophasic droplets, most of which contained acidic periodate-reactive complex carbohydrate. Underiying cells, designated isthmus cells, exhibited monophasic or occasional biphasic granules containing sulphated, hexose-rich mucosubstance. Nascent droplets or granules near the Golgi zone differed from the mature organelles in the distribution of the glycoconjugate. Mucous neck cells occupied a deeper stratum and displayed a uniform population of monophasic mucous droplets with a loose meshwork of neutral mucosubstance.Techniques for demonstrating hexoses ultrastructurally stained all Golgi cisternae in the mucigenic epithelium, showing increasing reactivity toward the maturing face. Distinctive cistemae with moderate reactivity in the Golgi complex of isthmus cells were interpreted as GERL. Acidic mucosubstances were visualized only in the inner, mature cisternae of the Golgi complex of cells storing acidic glycoconjugates, and not in cisternae interpretable as GERL.The apical plasmalemma of isthmus cells uniquely exhibited abundant sulphated glycoconjugate and that of parietal cells revealed a less prominent, periodic neutral mucosubstance. Lateral and basal plasmalemmae varied from unstained to slightly reactive; basement membranes showed moderate reactivity with methods for visualizing complex carbohydrates. Abundance of glycogen further characterized surface epithelial cells of the corpus and of some parietal cells     

Ultrastructural cytochemistry of atrial muscle cells

Summary Sections of atrial cardiocytes from young rats were subjected to radioautography after a single intravenous injection of L-leucine-4,5 ³H to identify the sites of synthesis and to follow the migration of newly-formed proteins. As early as 2 min after injection of L-leucine ³H, the label was highest in the rough endoplasmic reticulum (RER), suggesting that cisternal ribosomes are sites of protein synthesis. By 5 min, most of the label had migrated from the RER to the Golgi complex. Some label was already present over specific granules by 2 min but the peak was reached at 1 h. By 4 h, the label over the specific granules had diminished, possibly indicating a release of newly-synthetized secretory material outside the cell. The label over myofilaments and Z-bands was relatively high at most time intervals, suggesting an early and important incorporation of leucine into the contractile and structural proteins of these organelles. The label over the cytosol was initially high and increased even further at 5 and 20 min but decreased to a very low level at 4 h. In contrast, the label over the cell surface rose continuously and peaked at 4 h. The pattern of increment of the label over the cell surface suggests that the newly-formed proteins of these sites are also synthetized in the RER, pass through the Golgi complex and are transported in the cytosol before reaching their destination.     

Phosphatidylinositol metabolism in the adrenal medulla

Changes in phosphoinositide metabolism due to muscarinic stimulation of the adrenal medulla are reviewed. Evidence is presented that muscarinic receptors inhibit catecholamine secretion by the bovine gland and that muscarinic agonists do not cause entry of calcium ions. Results are inconsistent with the theory that phosphatidylinositol hydrolysis opens calcium 'gates'. Polyphosphoinositide metabolism is also reviewed and the suggestion made that phosphatidylinositol 4,5-bisphosphate may regulate the activity of the calcium pump ATPase in cells where phosphoinositide-linked receptors promote calcium influx.     

Morphology and histochemistry of the adrenal medulla

Summary Semithin sections (Araldite) of mouse adreno-medullary tissue were examined in the light microscope after perfusion fixation with glutaraldehyde, glutaraldehyde/formaldehyde or after freeze-drying followed by a treatment with hot formaldehyde gas. The following methods were employed: (i) aldehyde-induced fluorescence of catecholamines, (ii) Schmorl's ferric ferricyanide reaction, (iii) argentaffin reaction, and (iiii) staining with alkaline lead citrate followed by Timm's silver sulphide reaction. The correspondence of results obtained by the various methods was proven in consecutive sections or by successively applying different methods to identical sections.Four types of primary catecholamine-storing cells were identified. NA₁ cells contain cytoplasmic granules up to 0.3 m in diameter which stain black with ammoniacal silver and display a bright white to yellow fluorescence. NA₂ cells show smaller cytoplasmic granules which stain brown with the argentaffin method and give white catecholamine fluorescence. NA₃ cells appear yellow-earth after applying the argentaffin reaction and show greenish fluorescence. NA₄ cells are hardly identified in the light microscope. These cells are significantly smaller than the above mentioned cells and characterized by a high nucleo-cytoplasmic ratio. They become straw coloured with ammoniacal silver and show greenish fluorescence.The argentaffin reaction was also used to identify these cells in semithin sections of glutaraldehyde/osmium tetroxide fixed material. The fine structure of the various noradrenalin-storing cells was studied in consecutive thin sections. NA₁ cells were found to contain two populations of granules, the larger ones measuring between 300 and 350 nm, the smaller ones about 175 nm. The granules in NA₂ cells correspond to this latter population (175 nm). NA₃ cells contain an uniform granule population with a main diameter of 120 nm. The smallest granules are seen in NA₄ cells being in the dimension of 80 nm. Granules in NA₁ and NA₂ cells show uniformly high electron density, whereas those in NA₃ and NA₄ cells display cores of varying density. Granules with moderately dense cores in NA₃ and NA₄ cells may represent partially emptied sites of noradrenalin storage or dopamin containing particles.Supported by the Deutsche Forschungsgemeinschaft, grant Nr. Bo 525/1These results were presented in part at 17. Tagung der Deutschen Gesellschaft für Elektronenmikroskopie, Berlin, 21.–26. 9. 1975