内质网及其标志酶在离体培养脊髓神经元中的发育变化

本文采用形态学与细胞化学相结合的方法,在超微结构水平观察了与突触酶、受体和结构蛋白的合成有关的内质网和高尔基复合体、GERL以及它们的标志酶的发育变化。结果表明神经元本身有一发育过程,发育早期的细胞器较少,成熟时逐渐增多,以内质网和高尔基复合体最为明显。用G一6一Pase、TPPase和CMPase可分别标记内质网及同源结构、高尔基复合体的成熟而膜囊和GERL。这些酶的出现及阳性水平与神经元的发育呈同步关系。可作为判断细胞分化程度和功能状态的指标。G-6-Pase还分布在突触后树突的内质网中,突触形成大都从含G-6-Pase阳性内质网的树突开始。本文对内质网及G-6-Pase在神经元中的发育变化及功能进行了讨论。     

Ultrastructural localization of phosphatase activity in the guinea pig pineal gland by the cerium technique

Thiamine pyrophosphatase (TPPase), nucleoside diphosphatase (NDPase), and glucose-6-phosphatase (G-6-Pase) were localized by the cerium technique in guinea pig pinealocytes and compared with the corresponding lead technique. NDPase and TPPase were also compared at different pH values using the cerium technique. Vibratome sections of perfusion-fixed tissue were incubated with cerium chloride or lead nitrate. Substrates used were thiamine pyrophosphate (for TPPase), sodium inosine diphosphate (NDPase), and disodium glucose-6-phosphate (G-6-Pase). The 1-2 trans saccules of the Golgi apparatus showed TPPase and NDPase activity but none for G-6-Pase. The endoplasmic reticulum (ER) cisternae and perinuclear space had NDPase and G-6-Pase activity but not TPPase. The abluminal plasmalemma of endothelial cells and the plasmalemma of Schwann cells demonstrated TPPase and NDPase activity but the luminal plasmalemma of the endothelial cells and the plasmalemma of pinealocyte processes showed only NDPase activity. TPPase was active at all pH values tested, but NDPase was most active at pH values of 6.5 and 7.0. Lead phosphate precipitate was frequently seen in nuclei, perinuclear space, ER cisternae, and "synaptic" vesicles when lead was used as the capturing agent. These sites were usually not labeled when cerium was used.     

Albumin secreted by rat liver bypasses Golgi apparatus cisternae

Albumin was isolated immunologically from various subcellular fractions from livers of adult male rats receiving an intraperitoneal injection of [³H]leucine to investigate the kinetics and pathway of subcellular transfer of newly synthesized albumin during secretion. At appropriate time intervals, livers were excised and fractionated into endoplasmic reticulum and Golgi apparatus. Golgi apparatus were further subfractionated into cisternae and secretory vesicles. In endoplasmic reticulum fractions, labeled albumin appeared within 7.5 min of injection of isotope, followed by a rapid decline in specific activity. Albumin in Golgi apparatus was labeled and concentrated in secretory vesicles over 25 min. The radioactivity in albumin per mg total protein was highest in secretory vesicles and insignificant in the cisternal fraction. Labeled albumin was present in serum by 30 min and radioactivity in serum albumin reached a plateau within 60–90 min after injection of isotope. Results provide evidence for the migration of albumin from its site of synthesis on endoplasmic reticulum membrane-bound polyribosomes to its site of secretion into the circulation via the Golgi apparatus. The pathway of albumin transport to secretory vesicles is suggested to involve peripheral elemenst of the Golgi apparatus. Secretory vesicle formation and maturation required 20 to 30 min for completion, via a mechanism whereby the inner spaces of the central saccules may be bypassed.     

Ultrastructural Changes in Maturing Sporangia of Albugo Candida

Maturation of sporangia in Albugo sp. involved considerableinternal differentiation. There was a burst of activity in sporangiasoon after their formation when the numbers of mitochondria,and the amounts of endoplasmic reticulum increased. Perinuclearvesicles and smooth surfaced cisternae differentiated into well-developedgolgi apparatus which remained secretory until completion ofmaturation. The cisternae of rough endoplasmic reticulum arrangedthemselves in parallel stacked arrays. Maturing sporangia hadautophagic vacuoles containing various cell organelles. Nucleardegeneration and mitosis proceeded simultaneously. All activitiesdeclined towards the end of sporangial maturation: Golgi dictyosomesbecame quiescent and numbers of mitochondria and amounts ofendoplasmic reticulum decreased. There was a three-fold increasein the thickness of the sporangial wall during maturation.     

Cytochemical localization of glucose-6-phosphatase in rabbit mononuclear phagocytes during differentiation

Cytochemical and biochemical investigations have revealed glucose-6-phosphatase (G-6-Pase) activity in Kupffer cells of the liver. To determine whether other mononuclear phagocytes are also reactive for G-6-Pase, rabbit bone marrow, blood, and alveolar macrophages were tested for G-6-Pase by a modified Wachstein-Meisel method and prepared for electron microscopy. Some mononuclear phagocytes from all three tissues were intensely reactive; others were unreactive. In promonocytes, monocytes, and alveolar macrophages, reaction product for the enzyme was localized throughout all cisternae of the endoplasmic reticulum (ER) and the perinuclear cisternae, but it was absent from the Golgi complex, lysosomes, and occasional smooth tubular channels. These results indicate that mononuclear phagocytes at all stages of development contain cytochemically demonstrable G-6-Pase and that the distribution of the enzyme is not altered during their differentiation from immature cells in the bone marrow to mature macrophages in the lung.     

Biochemical studies on sub-fractions of rat liver mitochondria

Highly purified mitochondria from rat liver were separated into six sub-fractions by differential centrifugation. The sub-fractions represent a spectrum from “heavy” to “very light” mitochondria. Enzymes representative of mitochondrial compartments were assayed to see whether functional differences occurred among the various mitochondrial sub-fractions. Respiratory control and NADH oxidase activity, both of which are indicators of mitochondrial structural integrity, were also measured. An enzyme marker for endoplasmic reticulum (glucose-6-phosphatase, G-6-Pase) was also assayed. Specific activities for monoamine oxidase (outer membrane marker), cytochrome oxidase (inner membrane marker) and malate-cytochrome c reductase did not vary within experimental error in all sub-fractions; similarly, for respiratory control and NADH oxidase activity. Malate dehydrogenase, a component of malate-cytochrome c reductase is located within the matrix surrounded by the inner membrane. Specific activity of adenylate kinase (located between the outer and inner membrane) decreased markedly from the “heavy” mitochondria to the “very light” fractions. Specific activity for G-6-Pase, very low in the “heavy” fractions, increased markedly in the “light” to “very light” fractions. Isopycnic density centrifugation on a linear sucrose density gradient of each of the fractions indicated that the correlation coefficient for the sucrose concentrations at which cytochrome oxidase and G-6-Pase activities peaked was 0.995. Thus the “light” to “very light” mitochondria may represent mitochondria whose outer membrane is still contiguous with the endoplasmic reticulum. Microsomes containing the endoplasmic reticulum peaked on the gradient at a significantly lower sucrose concentration than any of the mitochondrial sub-fractions. A buoyant effect of endoplasmic reticulum still attached to any of the mitochondrial sub-fractions would be expected to lower the density of attached mitochondria and thus give rise to “light” and “very light” mitochondria.     

Ultrastructural changes in the MP3 neuron of the mollusk Lymnaea stagnalis after cryopreservation of the isolated brain

Investigation of a possibility of long-term storage of frozen (-196 degrees C) viable neurons and nervous tissue is one of the central present day problems. In this study ultrastructural changes in neurons of frozen-thawed snail brain were examined as a function of time. We studied the influence of cryopreservation, cryoprotectant (Me2SO), cooling to 4-6 degrees C, and a prolonged incubation in physiological solution at 4-6 degrees C on dictyosomes of Golgi apparatus, endoplasmic reticulum (ER) cisternae and mitochondria. It has been found that responses of these intracellular structures of cryopreserved neurons to the above influences are similar: dissociation of Golgi dictyosomes, swelling of endoplasmic reticulum cisternae and mitochondrial cristae. Both freezing-thawing and cryoprotectant were seen to cause an increase in the number of lysosomes, liposomes, myelin-like structures, and to form large vacuoles. The structural changes in molluscan neurons caused by cryopreservation with Me2SO (2 M) were reversible.     

Morphological studies on secretion in the silk glands of the caddis fly larvae,Platyphylax designatus walker

Summary Actively secreting silk gland cells of caddis fly larvae show the following fine structure: a well developed rough-surfaced endoplasmic reticulum, continuity between roughsurfaced and smooth-surfaced endoplasmic reticulum adjacent to the Golgi saccules, dense material (secretion) in the margins of the Golgi saccules, some of which appear in the form of blebs and discrete membane bounded secretion granules; the latter seem to coalesce and migrate to the surface of the cell where they are discharged. Intracisternal granules appear in glands where the secretion cycle has apparently been interrupted. These observations suggest a secretion cycle for the silk glands comparable to that demonstrated by both morphological and experimental methods in certain other protein secreting cells: namely, synthesis by the ribosomes, transport to the Golgi complex through the cisternae of the endoplasmic reticulum, concentration by the Golgi complex and movement of the secretion granules through the cytoplasm to the surface of the cell where they are discharged.This research was supported by grants from the National Institutes of Health (RG-4706, 5479) and the National Science Foundation (G-9879).     

Glucose-6-phosphatase as a cytochemical marker of endoplasmic reticulum in human leukocytes and platelets

Leukocytes and platelets, freshly isolated from normal human blood, were tested cytochemically for glucose-6-phosphatase (G-6-Pase) by a modified Wachstein-Meisel method. The enzyme was present in the endoplasmic reticulum (ER) and perinuclear cisternae of all five types of leukocytes and in the ER of platelets. The reaction product from the cytochemical test distinguished the ER from other intracellular membrane-limited cisternae (i.e., the smooth pinocytic tubules of monocytes and the surface-connected canalicular system of platelets) and thus is a valuable marker of the ER. The cytochemical test also showed that the ER of polymorphonuclear leukocytes (PMN), usually obscured by abundant granules in cells prepared for morphological examination, is more extensive than formerly appreciated. This is the first demonstration of G-6-Pase in human leukocytes. Its precise role in leukocyte metabolism can now be investigated.     

Electron microscopic and cytochemical studies of the mouse subcommissural organ

Summary In mice most of the ependymal cells of the subcommissural organ (SCO cells) are densely packed with dilated cisternae of the endoplasmic reticulum (ER) containing either finely granular or flocculent materials. The well developed supra-nuclear Golgi apparatus consists of stacks of flattened saccules and small vesicles; the two or three outer Golgi saccules are moderately dilated and exhibit numerous fenestrations; occasional profiles suggesting the budding of coated vesicles and formation of membrane-bound dense bodies from the ends of the innermost Golgi saccules are seen. A few coated vesicles and membrane-bound dense bodies of various sizes and shapes are also found in the Golgi region.The contents of the dilated ER cisternae are stained with periodic acid-silver methenamine techniques. In the Golgi complex the two or three inner saccules are stained as deeply as the dense bodies, and the outer saccules are only slightly stained. The stained contents of ER cisternae are more electron opaque than those of the outer but less opaque than those of the inner Golgi saccules and the dense bodies.Acid phosphatase activities are localized in the dense bodies, some of the coated vesicles in the Golgi region, and in the one or two inner Golgi saccules.On the basis of these results the following conclusions have been reached: (1) In mouse SCO cells the finely granular and the flocculent materials in the lumen of ER cisternae contain a complex carbohydrate(s) which is secreted into the ventricle to form Reissner's fiber; (2) the secretory substance is assumed to be synthesized by the ER and stored in its cisternae, and the Golgi apparatus might play only a minor role, if any, in the elaboration of the secretory material; (3) most of the dense bodies in the mouse SCO cells are lysosomal in nature instead of being so-called dark secretory granules.Sponsored by the National Science Council, Republic of China.