Electron-translucency and partial defects of synaptic basal lamina in the electrocyte synapse of an electric ray (Narke japonica) in 3D embedment-free section electron microscopy.

The synaptic basal lamina of the electrocytes was disclosed to be electron-translucent to some extent when viewed in an en-face direction in embedment-free section transmission electron microscopy (EFS-TEM), and synaptic vesicles located close to the presynaptic membrane were seen through the synaptic basal lamina together with the presynaptic and postsynaptic membranes. This feature of translucency has the potential to analyze possible spatial interrelations in situ between bioactive molecules in the synaptic basal lamina and the synaptic vesicles in further studies. The synaptic basal lamina, appearing as an electron-dense line sandwiched by two parallel lines representing the presynaptic and postsynaptic membranes in ultrathin sections cut right to the synaptic junctional plane in conventional TEM, was not fully continuous but randomly intermittent along its trajectory. Compatible with the intermittent line appearance, the en-face 3D view in embedment-free section TEM revealed for the first time partial irregular defects of the synaptic basal lamina. Considering the known functional significance of several molecules contained in the synaptic basal lamina in the maintenance and exertion of the synapse, its partial defects may not represent its rigid structural features, but its immature structure under remodeling or its dynamic changes in consistency such as the sol/gel transition, whose validity needs further examination. RESEARCH HIGHLIGHTS: In embedment-free section TEM, a 3D en-face view of synaptic basal lamina in situ is reliably possible. The basal lamina en-face is electron-translucent, which makes it possible to analyze spatial interrelation between pre- and post-synaptic components. Partial irregular defects in the basal lamina are revealed in Torpedo electrocytes, suggesting its remodeling or dynamic changes in consistency.

γ-aminobutyric acid B2 receptor: A potential therapeutic target for cholangiocarcinoma in patients with diabetes mellitus.

BACKGROUND: The association between diabetes mellitus (DM) and the increased risk and progression of cholangiocarcinoma (CCA) has been reported with unclear underlying mechanisms. Previous studies showed that γ-aminobutyric acid (GABA) B2 receptor (GABBR2) was upregulated in CCA cells cultured in high glucose (HG) conditions. Roles of GABA receptors in CCA progression have also been studied, but their association with DM and hyperglycemia in CCA remains unclarified. AIM: To investigate the effects of hyperglycemia on GABBR2 expression and the potential use of GABBR2 as a CCA therapeutic target. METHODS: CCA cells, KKU-055 and KKU-213A, were cultured in Dulbecco Modified Eagle's Medium supplemented with 5.6 mmol/L (normal glucose, NG) or 25 mmol/L (HG) glucose and assigned as NG and HG cells, respectively. GABBR2 expression in NG and HG cells was investigated using real-time quantitative polymerase chain reaction and western blot. Expression and localization of GABBR2 in CCA cells were determined using immunocytofluorescence. GABBR2 expression in tumor tissues from CCA patients with and without DM was studied using immunohistochemistry, and the correlations of GABBR2 with the clinicopathological characteristics of patients were analyzed using univariate analysis. Effects of baclofen, a GABA-B receptor agonist, on CCA cell proliferation and clonogenicity were tested using the MTT and clonogenic assays. Phospho-kinases arrays were used to screen the affected signaling pathways after baclofen treatment, and the candidate signaling molecules were validated using the public transcriptomic data and western blot. RESULTS: GABBR2 expression in CCA cells was induced by HG in a dose- and time-dependent manner. CCA tissues from patients with DM and hyperglycemia also showed a significantly higher GABBR2 expression compared with tumor tissues from those with euglycemia (P < 0.01). High GABBR2 expression was significantly associated with a poorer non-papillary histological subtype but with smaller sizes of CCA tumors (P < 0.05). HG cells of both tested CCA cell lines were more sensitive to baclofen treatment. Baclofen significantly suppressed the proliferation and clonogenicity of CCA cells in both NG and HG conditions (P < 0.05). Phospho-kinase arrays suggested glycogen synthase kinase 3 (GSK3), ß-catenin, and the signal transducer and activator of transcription 3 (STAT3) as candidate signaling molecules under the regulation of GABBR2, which were verified in NG and HG cells of the individual CCA cell lines. Cyclin D1 and c-Myc, the common downstream targets of GSK3/ß-catenin and STAT3 involving cell proliferation, were accordingly downregulated after baclofen treatment. CONCLUSION: GABBR2 is upregulated by HG and holds a promising role as a therapeutic target for CCA regardless of the glucose condition.

High glucose enhances the aggressiveness of lung adenocarcinoma via activating epidermal growth factor receptor/signal transducer and activator of transcription 3 pathways.

Epidemiological studies revealed hyperglycemia as a poor prognostic factor for lung adenocarcinoma with unclear molecular mechanisms. The present study thus aimed to investigate the effects of high glucose on the progression of lung adenocarcinoma and its underlying mechanisms. Lung adenocarcinoma cell lines, A549 and RERF-LC-KJ, were cultured in 5.6 mM glucose (normal glucose; NG) or 25 mM glucose (high glucose; HG) resembling euglycemia and hyperglycemia. Cells were examined for proliferation by the MTT assay, and migration-invasion using Transwell. The expressions of signaling proteins in epidermal growth factor receptor (EGFR) pathways and their downstream targets were investigated using Western blots. The effects of diabetes mellitus (DM) and hyperglycemia on lung adenocarcinoma growth in vivo were studied in streptozotocin-induced diabetic BALB/cAJcl-Nu/Nu mice and their nondiabetic counterparts. High glucose significantly promoted proliferation, migration, and invasion of lung adenocarcinoma cells compared with those in normal glucose (P<.05). Western blot analyses showed the increased ratio of pEGFR/EGFR in cells cultured in high glucose and subsequently activated the signal transducer and activator of transcription 3 (STAT3). Epithelial-mesenchymal (EMT) markers were also altered in lung adenocarcinoma cells in high glucose conditions, corresponding with increased migration and invasion abilities. Erlotinib, an EGFR inhibitor, significantly reversed high glucose-induced aggressive phenotypes confirming high glucose-enhancing lung adenocarcinoma progression via the activation of EGFR. DM and hyperglycemia also promoted the growth of lung adenocarcinoma xenografts in vivo in which erlotinib significantly suppressed the growth of tumors (P<.05) suggesting EGFR inhibitor as an effective therapeutic agent for lung adenocarcinoma with DM.

Localization of Diacylglycerol Kinase ζ in the Kidney of Adult Rats: Its Dominant Expression in Collecting Tubules and its Selective Lack in Proximal Tubules / Localización de Diacilglicerol Quinasa ζ en el Riñón de Ratas Adultas: su Expresión Dominante en Túbulos Colectores y su Carencia Selectiva en Túbulos Proximales

SUMMARY: Diacylglycerol kinase (DGK) exerts balancing the intracellular level between two-second messengers, diacylglycerol and phosphatidic acid, by its phosphorylation activity. DGK ζ is often localized in cell nuclei, suggesting its involvement in the regulation of intranuclear activities, including mitosis and apoptosis. The present immunohistochemical study of rat kidneys first revealed no detection levels of DGK ζ -immunoreactivity in nuclei of most proximal tubule epithelia in contrast to its distinct occurrence in cell nuclei of collecting and distal tubules with the former more dominant. This finding suggests that DGK ζ is a key factor regulating vulnerability to acute kidney injury in various renal tubules: its low expression represents the high vulnerability of proximal tubule cells, and its distinct expression does the resistance of collecting and distal tubule cells. In addition, this isozyme was more or less localized in nuclei of cells forming glomeruli as well as in endothelial nuclei of peritubular capillaries and other intrarenal blood vessels, and epithelial nuclei of glomerular capsules (Bowman's capsules) and renal calyces, including intrarenal interstitial cells.

La diacilglicerol quinasa (DGK) ejerce el equilibrio del nivel intracelular entre dos segundos mensajeros, diacilglicerol y ácido fosfatídico, por su actividad de fosforilación. La DGK ζ a menudo se localiza en los núcleos celulares, lo que sugiere su participación en la regulación de las actividades intranucleares, incluidas la mitosis y la apoptosis. El presente estudio inmunohistoquímico en riñones de rata no reveló niveles de detección de inmunorreactividad de DGK ζ en los núcleos de la mayoría de los epitelios de los túbulos proximales, en contraste a la detección en los núcleos celulares de los túbulos colectores y distales, siendo el primero más dominante. Este hallazgo sugiere que DGK ζ es un factor clave que regula la vulnerabilidad a la lesión renal aguda en varios túbulos renales: su baja expresión representa la alta vulnerabilidad de las células del túbulo proximal, y su expresión distinta hace a la resistencia de las células del túbulo colector y distal. Además, esta isoenzima estaba más o menos localizada en los núcleos de las células que forman los glomérulos, así como en los núcleos endoteliales de los capilares peritubulares y otros vasos sanguíneos intrarrenales, y en los núcleos epiteliales de las cápsulas glomerulares (cápsulas de Bowman) y los cálices renales, incluidas las células intersticiales intrarrenales.

Hyperglycemia Alters O-GlcNAcylation Patterns of Hepatocytes in Mice Treated With Hepatoxic Carcinogen.

BACKGROUND/AIM: Diabetes mellitus (DM) is an established risk for hepatocellular carcinoma (HCC), with unclarified mechanisms. This study investigated the effects of hyperglycemia on O-GlcNacylation in hepatocytes and its associations with hepatocarcinogenesis. MATERIALS AND METHODS: Mouse and human HCC cell lines were used in an in vitro model of hyperglycemia. Western blotting was used to determine the effects of high glucose on O-GlcNacylation in HCC cells. Twenty 4-week-old C3H/HeNJcl mice were randomized into four groups: non-DM control, non-DM plus diethylnitrosamine (DEN), DM, and DM plus DEN. DM was induced using intraperitoneal injection of a single high dose of streptozotocin. DEN was used to induce HCC. All mice were euthanized at week 16 after DM induction, and the liver tissues were histologically examined using hematoxylin and eosin, and immunohistochemistry. RESULTS: High glucose increased O-GlcNacylated proteins in mouse and human HCC cell lines compared with those cultured at normal glucose concentration. Mice with hyperglycemia or DEN treatment had increased O-GlcNacylated proteins in hepatocytes. No gross tumors were evident at the end of the experiment but hepatic morbidity was observed. Mice with hyperglycemia and DEN treatment showed greater histological morbidity in their livers, i.e. increased nuclear size, hepatocellular swelling and sinusoidal dilatation, compared with mice in the DM group or treated with DEN alone. CONCLUSION: Hyperglycemia increased O-GlcNAcylation in both in vitro and animal models. Increased O-GlcNAcylated proteins may be associated with hepatic histological morbidities which then promote HCC development in carcinogen-induced tumorigenesis.

Discrete localization of phospholipase Cß3 and diacylglycerol kinase ι along the renal proximal tubules of normal rat kidney and gentamicin-induced changes in their expression.

Many signaling enzymes have multiple isozymes that are localized discretely at varying molecular levels in different compartments of cells where they play specific roles. In this study, among the various isozymes of phospholipase C (PLC) and diacylglycerol kinase (DGK), which work sequentially in the phosphoinositide cycle, both PLCß3 and DGKι were found in renal brush-border microvilli, but found to replace each other along the proximal tubules: PLCß3 in the proximal straight tubules (PST) of the outer stripe of the outer medulla (OSOM) and the medullary ray (MR), and DGKι in the proximal convoluted tubules (PCT) in the cortex and partially in the PST of the MR. Following daily injection of gentamicin for 1 week, the expression of PLCß3 and DGKι was transiently enhanced, as demonstrated by western blot, and the increases were found to most likely occur in their original sites, that is, in the brush borders of the PST for PLCß3 and in the PCT for DGKι. These findings showing differences in expression along the tubules suggest that the exertion of reabsorption and secretion through various ion channels and transporters in the microvillus membranes and the maintenance of microvillus turnover are regulated by a PLC-mediated signal with the balance shifted toward relative augmentation of the DAG function in the PST, and by a DGK-mediated signal with the balance shifted to relative augmentation of the phosphatidic acid function in the PCT. Our results also suggest the possibility that these isozymes are potential diagnostic signs for the early detection of acute kidney injury caused by gentamicin.

Discrete localization patterns of PIP5Kγ and PLCß3 working sequentially in phosphoinositide-cycle within mouse sensory neuron somata.

It is known that phosphatidylinositol phosphate 5 kinase (PIP5K) γ and phospholipase C (PLC) ß3, working sequentially in the phosphoinositide cycle, are localized in dorsal root ganglion (DRG) somata and are involved in the regulation of pain and related sensations. However, the sites of their involvement have remained to be clarified. In the present study, immunoreactivity for PLCß3 was distinct only in the central process of mouse DRG, but not in its peripheral process, in contrast to distinct PIP5Kγ-immunoreactivity in both peripheral and central DRG processes. No nerve terminals showing immunoreactivity for PLCß3 were detected in any peripheral sensory fields, similar to PIP5Kγ-immunoreactivity. In DRG somata, PIP5Kγ-immunoreactivity was rather confined to the neurolemma in which dots and threads were discerned in 3D bright field light microscopy. This feature well corresponded to its discontinuous localization along the plasma membranes in immuno-electron microscopy. In contrast, PLCß3-immunoreactivity occurred diffusely throughout the somata, but did not take distinct appearance of immunoreaction on neurolemma or plasma membranes, unlike PIP5Kγ-immunoreactivity. In addition, satellite glial cells were immunonegative for PLCß3, but immunopositive for PIP5Kγ. The involvement of PLCß3 in regulation of pain and related sensations is thus suggested to be mainly exerted at levels of the DRG soma and its upstream, but to be less significant in the peripheral sensory fields, similar to PIP5Kγ. The possibility is also suggested that PIP, PIP5Kγ-target, is localized heterogeneously, but PIP2, PLCß3-target, is localized homogenously over the plane of the neuronal plasma membranes. RESEARCH HIGHLIGHTS: PIP5Kγ, different from PLCß3, was localized heterogeneously on neuronal membranes, and this difference was demonstrated in 3D-bright field immuno-light and electron microscopy. Either PIP5Kγ or PLCß3 was not detected in peripheral nerve terminals.

Expression with early postnatal peak and female-dominant sexual dimorphism of phospholipase D (PLD) 2 in submandibular gland ducts in situ of mice.

In the present study, expression and localization of PLD2 were examined in mouse submandibular glands in situ in comparison with those of PLD1 previously reported by the present authors. In immunoblots, PLD2-expression was high at postnatal 0 week (P0W) and P2W, and at P4W decreased considerably with the decrease of the male gland more marked, and at P8W it was undetectable in the male gland, but remained faint in the female. In the male gland at P8W after castration at P6W, PLD2-expression reappeared faintly. In the female glands with daily injections of testosterone started at P6W, at P8W the expression was undetectable. In immunohistochemistry, PLD2 was localized throughout immature duct epithelia without distinct regional differences in its intensity at P0W and P2W. PLD2-localization was weak and diffuse in granular convoluted tubules at P4W and negligible there at P8W in the female gland, while it was at negligible levels in the tubules at P4W and at undetectable levels there at P8W in the male gland. The expression changes detected in immunoblots after castration or testosterone injection were duplicated in granular convoluted tubules in immunohistochemistry. The present findings suggest that PLD2 is dominantly involved in proliferation/differentiation/apoptosis of most immature ductal cells at early postnatal and at least perinatal stages, different from PLD1. This also indicates that the female-dominant sexual dimorphism of PLD2-expression occurs in synchrony of differentiation of granular convoluted tubules at puberty and at young adulthood, similar to PLD1 though at much lower levels.

Localization of phosphatidylinositol phosphate 5 kinase γ, phospholipase ß3 and diacylglycerol kinase ζ in corneal epithelium in comparison with conjunctival epithelium of mice.

Based on the theory that the phosphoinositide (PI) signal is involved in the physiology of cornea and conjunctiva, we examined the localization in the mouse anterior ocular epithelia of immunoreactivities for phosphatidylinositol 4-phosphate 5-kinase (PIP5K), phospholipase C (PLC) and diacylglycerol kinase (DGK), enzymes that work sequentially in PI cycle. Immunoreactivity for PIP5Kγ in the corneal epithelium, including the limbus, was distinct in adults in contrast to faint or negligible immunoreactivity in the conjunctival epithelium in neonatal mice. This adult localization pattern was first recognized at the postnatal time of eyelid opening. Immunoreactivity for PLCß3 was rather equally distinct throughout the entire corneal and conjunctival epithelia in adults. DGKζ-immunoreactive nuclei were mainly localized in the basal half domain of the corneal epithelium but in both basal and apical domains of the conjunctival epithelium in adults. This nuclear immunoreactivity was at weak or negligible levels in the peripheral and limbus cornea and in a considerable portion of the bulbar conjunctival epithelium continuous with the limbus. The adult patterns for PLCß3 and DGKζ were already present at birth. The present findings suggest the following possibilities on the functional significance of the three enzyme molecules. PIP5Kγ is involved in cornea-specific functions such as bright-field vision, including corneal transparency, and in the stability of epithelial junctions, for which there seems to be a much higher requirement in the corneal epithelium than in the conjunctival epithelium. PLCß3 is involved from birth in as-yet undefined functions exerted ubiquitously from birth in both corneal and conjunctival epithelia. DGKζ is involved in regulation from birth of the transcription in epithelial cells, including apoptosis as well as regulation of mitosis of epithelial cells in both cornea and conjunctiva, with the transcription involvement more apparent in the conjunctiva, although it does not work in stem cells of the corneal limbus.

Mitochondrial Localization of CB1 in Progesterone-producing Cells of Ovarian Interstitial Glands of Adult Mice.

Localization of cannabinoid receptor type 1 (CB1) immunoreactivity on mitochondrial membranes, at least their outer membranes distinctly, was detected in progesterone-producing cells characterized by mitochondria having tubular cristae and aggregations of lipid droplets in ovarian interstitial glands in situ of adult mice. Both immunoreactive and immunonegative mitochondria were contained in one and the same cell. Considering that the synthesis of progesterone is processed in mitochondria, the mitochondrial localization of CB1 in the interstitial gland cells suggests the possibility that endocannabinoids modulate the synthetic process of progesterone in the cells through CB1.

Localization of phosphatidylinositol 4-phosphate 5-kinase (PIP5K) α confined to the surface of lipid droplets and adjacent narrow cytoplasm in progesterone-producing cells of in situ ovaries of adult mice.

Phosphatidylinositol(4,5)bisphosphate (PI(4,5)P2) produced by phosphatidylinositol phosphate 5 kinase (PIP5K) plays not only as a precursor of second messengers in the phosphoinositide signal transduction, but also multiple roles influencing a variety of cellular activities. From this viewpoint, the present study attempted to localize PIP5Kα in the ovaries in situ of adult mice. PIP5Kα-immunoreactivity was confined to the surfaces of lipid droplets (LDs) and their adjacent cytoplasm in progesterone-producing cells of the interstitial glands, corpora lutea and theca interna. The LDs often contained membranous tubules/lamellae along their surfaces and within their interior whose membranes were continuous with those delineating LDs composed of a monolayer of phospholipids and were partially PIP5Kα-immunoreactive. Although granulosa cells of healthy-looking follicles were immunonegative, as the atresia progressed, PIP5Kα-immunoreactivity first appeared in sparsely dispersed dot forms in mural cells of the follicular epithelia, and then were dominant in almost all mural cells that remained after desquamation of the antral cells. The present study provides evidence suggesting that PI(4,5)P2 locally synthesized by PIP5K in LDs is involved in the lipid transfer between lipid droplets (LDs) and the endoplasmic reticulum, which eventually regulates ovarian progesterone production through control of multiple dynamic activities of LDs. It is also suggested that PIP5Kα and PI(4,5)P2 are implicated in the modulation of programmed cell death and/or acquiring the ability of progesterone production in some follicular cells surviving atresia.

Localization of PIP5Kγ selectively in proprioceptive peripheral fields and also in sensory ganglionic satellite cells as well as neuronal cell membranes and their central terminals.

Based on a previous study by others reporting that PIP5Kγ (phosphatidylinositol 4-phosphate 5-kinase γ) and its product, phosphatidylinositol 4,5 bisphosphate (PIP2 ), are involved in the regulation of nociception, the present immunohistochemical study examined the localization of PIP5Kγ-immunoreactivity in dorsal root ganglia (DRG) and their peripheral and central terminal fields. PIP5Kγ-immunoreactivity was localized for the first time in the muscle spindles, in which it was found in I-bands of polar regions of intrafusal muscle fibers and also in sensory nerve terminals abutting on equatorial regions of the muscle fibers. This finding indicates the involvement of PIP5Kγ in the proprioception and suggests somehow complicated mechanisms of its involvement because of its heterogeneous localization in intra-I-band structures. In DRG, on the other hand, PIP5Kγ-immunoreactivity was shown to be localized heterogeneously, but not evenly, over apposed plasma membranes of both neurons and ganglionic satellite cells in immune electron microscopy. In addition, no peripheral nerve terminals of DRG showing its distinct immunoreactivity were found in most peripheral fields of nociception and any other sensory perception except for the proprioception through muscle spindles. In contrast, numerous central terminals of DRG in the spinal posterior horn were immunoreactive for it. This finding leads us to consider the possibility that the regulation by PIP5Kγ of nociception is dominantly exerted in DRG and sensory neural tracts central, rather than peripheral, to DRG.

In situ localization of diacylglycerol lipase α and ß producing an endocannabinoid 2-arachidonoylglycerol and of cannabinoid receptor 1 in the primary oocytes of postnatal mice.

In order to understand the mechanism of the endocannabinoid (eCB) signal, which has so far been shown to work in oocyte genesis and maturation, it is critical to clarify detailed localization of the eCB synthesizing enzyme molecules as well as receptors for eCBs in oocytes in the ovary in situ. For this purpose, diacylglycerol lipase (DGL) α and ß are involved in the synthesis of an eCB 2-arachidonoylglycerol (2-AG). DGLα/ß and the cannabinoid receptor 1 (CB1) for 2-AG were shown to be localized to the primary oocytes of postnatal mice using immuno-light and electron microscopy. It was found that two types of localization existed: first, immunoreactivities for DGLα and ß were weakly detected throughout the ooplasm in light microscopy for which the intracellular membranes of vesicles forming tiny scattered aggregates were responsible. Secondly, DGLß-immunoreactivity was distinctly confined to the nuage of Balbiani bodies and small nuage-derivative structures; both amorphous materials and membranes of vesicles were responsible for their localization. On the other hand, the weak immunoreactivity for CB1 was localized in a pattern similar to the first one for DGLs, but not found in a pattern for the Balbiani nuage. Two routes of functional exertion of 2-AG synthesized by DGLs were suggested from the two types of localization: one was that the eCB synthesized at all the sites of DGLs is released from the oocytes and exerts paracrine or autocrine effects on adjacent intra-ovarian cells as well as the oocytes themselves. The other was that the eCB synthesized within the nuage was involved in the modulation of the posttranscriptional processing of oocytes. Owing to the failure in the detection of CB1 in the Balbiani nuage, however, the validity of the latter possibility remains to be elucidated.

Discrete localization patterns of Arf6, and its activators EFA6A and BRAG2, and its effector PIP5kinaseγ on myofibrils of myotubes and plasma membranes of myoblasts in developing skeletal muscles of mice.

Arf6 (ADP ribosylation factor 6), activated by Arf-GEF (guanine nucleoside exchange factor), is involved in the membrane trafficking and actin-remodeling which are critical for maintenance of cell organization and activity and for fusion of myoblasts to form myotubes/myofibers. EFA6A (exchange factor for Arf6 type A) and BRAG2 (brefeldin A-resistant Arf-GEF 2) represent members of discrete subfamilies of Arf-GEF, while PIP5Kγ (phosphatidylinositol4-phosphate5-kinase γ) produces PI 4,5-bisphosphate (PIP2) and it is target for Arf6. In the present study, immunoreactive bands for Arf6, EFA6A, BRAG2 and PIP5Kγ were detected in immunoblots of skeletal muscle homogenates of mice at E18D (embryonic day 18), while the bands for Arf6, EFA6A and PIP5Kγ were reduced in density and no significant bands for BRAG2 were discerned at P1D (postnatal 1 day). No immunoblot bands for any of the molecules were eventually detected in skeletal fibers of adult mice. Immunoreactivities for endogenous Arf6, EFA6A and PIP5Kγ were visualized using immuno-light microscopy localized as periodic striations running perpendicular to the longitudinal axes of skeletal muscle fibers of mice at E18D and P1D. All the striations were co-immunoreactive for ß-actin in double immunofluorescence microscopy, and the immunoreactivities were confined to thin myofilaments at sarcomeric I-domains in immuno-electron microscopy. On the other hand, immunoreactivities for Arf6, BRAG2 and PIP5Kγ were conspicuous on plasmalemma of myoblasts at E14D, while immunoreactivity for EFA6A was already distinct in striations perpendicular to myofibrils in myotubes at E14D. The present findings suggest three possibilities: involvement of EFA6A-activated Arf6 together with PIP5Kγ in maturation of myofibrils, movement of Arf6 and PIP5Kγ from the plasmalemma of myoblasts to myofibrils of myotubes, and that of BRAG2 to the cytoplasm of myotubes; and further a function of EFA6A independent of the activation of Arf6 in immature myofibrils. In addition, the involvement of Arf6, BRAG2 and PIP5Kγ in the fusion of myoblasts into myotubes was supported by the present finding.

Heterogeneous localization of muscarinic cholinoceptor M1 in the salivary ducts of adult mice.

We hypothesize variation in expression and localization, along the course of the glandular tubule, of muscarinic cholinergic receptor M1 which plays as a distinct contribution, though minor in comparison with M3 receptor, in saliva secretion. Localization of the M1 receptor was examined using immunohistochemistry in three major salivary glands. Although all glandular cells were more or less M1-immunoreactive, acinar cells were weakly immunoreactive, while ductal cells exhibited substantial M1-immunoreactivity. Many ductal cells exhibited clear polarity with higher immunoreactivity in their apical/supra-nuclear domain. However, some exhibited indistinct polarity because of additional higher immunoreactivity in their basal/infra-nuclear domain. A small group of cells with intense immunoreactivity was found, mostly located in the intercalated ducts or in portions of the striated ducts close to the intercalated ducts. In immuno-electron microscopy, the immunoreactive materials were mainly in the cytoplasm including various vesicles and vacuoles. Unexpectedly, distinct immunoreactivity on apical and basal plasma membranes was infrequent in most ductal cells. The heterogeneous localization of M1-immunoreactivity along the gland tubular system is discussed in view of possible modulatory roles of the M1 receptor in saliva secretion.

Localization of EFA6 (exchange factor for ARF6) isoform D in steroidogenic testicular Leydig cells of adult mice.

EFA6 (exchange factor for ARF6) activates Arf6 (ADP ribosylation factor 6) by exchanging ADP to ATP and the resulting activated form of Arf6 is involved in the membrane trafficking and actin remodeling of cells. Our previous study has shown the selective expression/localization of EFA6D in steroidogenic adrenocortical cells in situ of adult mice. In view of the previous finding, the present study was undertaken to examine its localization in mouse Leydig cells representing another steroidogenic cell species in order to further support the possible involvement of the EFA6/Arf6 cascade via membrane trafficking in the regulation of steroidogenesis and/or secretion. A distinct band for EFA6D with the same size as that of the brain was detected in the testis of adult mice. In immuno-light microscopy, immunoreactivity for EFA6D was seen throughout the cytoplasm in most Leydig cells without any distinct accumulation along the plasmalemma. Lack of immunoreactivity for EFA6D was seen in the seminiferous tubular epithelium. In immuno-electron microscopy, the immune-labeling was seen in sporadic/focal patterns on plasma membranes and some vesicles and vacuoles subjacent to the plasma membranes. More constant and rather predominant is the labeling on numerous mitochondria. No immuno-labeling was seen in lipid droplets. The present study suggests that EFA6D is somehow involved in regulation of the synthesis and/or secretion of testosterone through the membrane-traffic by activation of Arf6. In addition, EFA6D is suggested to play in mitochondria some yet unidentified roles rather independent of Arf6-activation, which remains to be elucidated.

Ultrastructural Localization of Endogenous Exchange Factor for ARF6 in Adrenocortical Cells In Situ of Mice.

EFA6 (exchange factor for ARF6) activates Arf6 (ADP ribosylation factor 6) by exchanging ADP to ATP, and the resulting activated form of Arf6 is involved in the membrane dynamics and actin re-organization of cells. The present study was attempted to localize EFA6 type D (EFA6D) in mouse adrenocortical cells in situ whose steroid hormone secretion is generally considered not to depend on the vesicle-involved regulatory mechanism. In immunoblotting, an immunoreactive band with the same size as brain EFA6D was detected in homogenates of adrenal cortical tissues almost free of adrenal capsules and medulla. In immuno-light microscopy, EFA6D-immunoreactivity was positive in adrenocortical cells and it was often distinct along the plasmalemma, especially along portions of the cell columns facing the interstitium. In immuno-electron microscopy, the gold-labeling was more dense in the peripheral intracellular domains than the central domain of the immunopositive cells. The labeling was deposited on the plasma membranes in a discontinuous pattern and in cytoplasmic domains rich in filaments. It was also associated with some, but not all, of pleiomorphic vesicles and coated pits/vesicles. No labeling was seen in association with lipid droplets or smooth endoplasmic reticulum. The present finding is in support of the importance of EFA6D for activation of Arf6 in adrenocortical cells.

Identification in immuno-electron microscopy of solitary multi-polar peripheral neurons of adult Opisthorchis viverrini by antibody against rat diacylglycerol kinase / Identificación por microscopía imuno-electrónica de las neuronas periféricas multipolares solitarias del Opisthorchis viverrini adulto mediante anticuerpo contra la diacilglicerol kinasa de ratas

By utilizing the antibody for rat DGKz a substantial number of immunopositive cells were found in the OV (Opisthorchis viverrini). The immunopositive cells appeared solitarily and they were distributed rather symmetrically to the longitudinal axis of the OV. Some of them were located in close proximity to internal organs such as uterus, ovary, testes, vitelline glands and guts. The immunostained cells extended tapering processes horizontally or obliquely to the OV longitudinal axis. In immuno-electron microscopy, the immunopositive cells were characterized by intensely immunostained mitochondria and weakly immunostained cytoplasm and immunonegative chromatin-poor nucleus. Vacuoles of various sizes without the immunoreactivity were also contained in the cells. Thin cellular processes without the immunoreactivity were found to enclose thinly the entire surfaces of the immunostained cells and processes, and they were in continuity with the interstitial partition-like processes which contained nuclei and aggregation of microfibrils at some distance from the cytoplasmic envelopes. The present finding suggests the possibility that the immunostained cells were peripheral neurons enveloped by peripheral glia and that the glia are of mesenchymal origin because of their cytoplasmic continuity to the interstitial partition-like processes. The motor or sensory nature of the neurons remains to be elucidated.

Mediante el uso del anticuerpos DGK para rata se determinó un número considerable de células inmunopositivas en el Opisthorchis viverrini (OV). Las células inmunopositivas aparecían solitarias y se distribuían simétricamente al eje longitudinal de la OV. Algunas estaban ubicadas en las proximidades de los órganos internos como el útero, ovarios, testículos, glándulas vitelinas e intestino. Las células inmunoteñidas extendían sus procesos horizontalmente u oblicuamente al eje longitudinal de la OV. Por microscopía inmunoelectrónica, las células inmunopositivas se caracterizaron por presentar mitocondrias intensamente teñidas, citoplasma con tinción débil e inmunonegatividad en núcleos pobres en cromatina. También se observó en las células, vacuolas de diversos tamaños sin inmunorreactividad. Se encontraron procesos celulares sin inmunorreactividad para cerrar finamente todas las superficies de las células y procesos, y se continuaron con los procesos de partición intersticiales que contenían núcleos y agregación de microfibrillas a cierta distancia de las envolturas citoplásmicas. El presente hallazgo sugiere la posibilidad de que las células inmunoteñidas son neuronas periféricas envueltas por glia periférica y que la glía presenta origen mesenquimal debido a su continuidad citoplasmática con los procesos de partición intersticiales. La naturaleza motora o sensorial de las neuronas aún no se ha dilucidado.

Selective localization of diacylglycerol kinase (DGK)ζ in the terminal tubule cells in the submandibular glands of early postnatal mice.

The present immunohistochemical study was attempted to localize in the submandibular glands of mice at various postnatal stages a diacylglycerol kinase (DGK) isoform termed DGKζ which is characterized by a nuclear localization signal and a nuclear export signal. This attempt was based on following facts: the continuous postnatal differentiation of glandular cells in the rodent submandibular gland, the regulatory role of DGK in the activity of protein kinase C (PKC) through attenuation of diacylglycerol (DAG), and the possible involvement of PKC in various cellular activities including the saliva secretion as well as the cell differentiation. As a result, a selective localization of immunoreactivity for DGKζ was detected in terminal tubule (TT) cells which comprise a majority of the newborn acinar structure and differentiate into the intercalated duct cells and/or the acinar cells. The immunoreactivity was deposited in portions of the cytoplasm lateral and basal to the nucleus, but not in the nuclei themselves. Although the immunoreactive TT cells remained until later stages in female specimen than in male, they eventually disappeared in both sexes by young adult stages. The present finding suggests that the regulatory involvement of DGKζ in PKC functions via control of DAG is exerted in the differentiation of the TT cells. In addition, another possible involvement of DGKζ in the regulation of secretion of the TT cells as well as its functional significance of its nuclear localization in the submandibular ganglion cells was also discussed.

Immunohistochemical analysis of sustentacular cells in the adrenal medulla, carotid body and sympathetic ganglion of mice using an antibody against brain-type fatty acid binding protein (B-FABP).

Little attention has been paid to adrenal sustentacular cells, and several major histology textbooks do not even describe them. This study presents a detailed morphological description of sustentacular cells using immuno-light microscopy and an antibody against brain-type fatty acid-binding protein. The immunopositive sustentacular cells and processes formed lattices with holes of various sizes and compactnesses or openness. In addition, weakly immunostained sheet-like structures with ill-defined contours were often associated with the processes and lattices. In the carotid body, which has traditionally been classified under the name of paraganglia in common with the adrenal medulla, immunostained sustentacular cell processes formed lattices in association with the weakly immunostained sheet-like structures, but the lattices with sheets were more compact and rigid than the adrenal medulla, and appeared like individually distinct compartments. In the ganglion, the immunostained satellite cell processes with the sheets tightly enclosed individual neurons. As a result, the immunostained sheet-like structures were regarded as en-face views of thinly flattened sustentacular cytoplasmic envelopes partially covering the chromaffin cells in the adrenal medulla, and widely in the carotid body in a way rather similar to the satellite cells in the ganglion. In brief, the terminal enclosing portions of adrenal sustentacular cell processes, in cut-views, were too thin/flat to be recognized as distinct lines in immuno-light microscopy because of its resolution limit. They are recognized in en-face views as entities of a substantially spacious extension in immuno-light microscopy.