The effect of dehydration on the ultrastructure and cholinesterase activity of the subcommissural organ in the rat

Summary Dehydration affected certain cytological features of the subcommissural organ in the albino rat suggesting a strong secretory stimulation of the ependymal and hypendymal cells of this organ in dehydrated animals.The cytoplasm of the secretory cells of the subcommissural organ in the dehydrated rats was filled with dilated and empty sacs and vacuoles of endoplasmic reticulum. The membrane system of the Golgi apparatus was also dilated, and more numerous vesicles and vacuoles of the Golgi complex were noticed after dehydration.In brains of the dehydrated animals, Reissner's fibre was not found in the lumen of the third ventricle, and only a few vesicles containing homogeneous secretory material were seen in the cytoplasm of the subcommissural secretory cells.In control animals, the activities of the specific and non-specific cholinesterases were localized in the cytoplasmic and nuclear membranes as well as in the rough and smooth endoplasmic reticulum. After dehydration, the activities of the specific and non-specific cholinesterases were strongly decreased.     

Acetylcholine and cholinesterases (assays and light- and electron microscopical histochemistry) in different parts of the pituitary of rat,rabbit and domestic pig

Summary Acetylcholine was measured by bioassay and cholinesterases by colorimetric assay and by light and electron microscopical histochemistry in the pars nervosa, pars intermedia and pars distalis of the rat, rabbit and domestic pig pituitaries. The highest ACh concentration was found in the rat pituitary. More butyrylcholinesterases and less acetylcholinesterase was found in the rat pituitary than in the rabbit and pig pituitaries. Light microscopical histochemistry showed greater depositions of reaction products in the rat pituitary than in the other two species. This was predominantly due to butyrylcholinesterases in the pars nervosa-pars intermedia junctional region of the rat pituitary. Electron microscopical histochemistry was of limited value for quantitative estimates of distribution and localization of cholinesterases. However, the ultrastructural localization showed that most of the reaction product in the pars nervosa was associated with pituicytes with little or no reaction product in the neurosecretory terminals or in other nerve terminals. In the pars intermedia, the reaction products were primarily on the membranes of the nuclei and endoplasmic reticulum, and in some nerve terminals. No conclusions concerning the role of acetylcholine and cholinesterase in the release of the neurosecretory hormones could be made on the basis of these findings.Supported by Medical Research Council of Canada.University of Calgary Postdoctoral Fellow. Present address: Department of Pharmacology, St. Thomas's Hospital Medical School, London S.W.1., England.MRC (Canada) Postdoctoral Fellow.Associate, Medical Research Council of Canada.Research Associate of the Consejo Nacional de Investigaciones Cientificas y Tecnicas, Argentina. Present address. Anatomisches Institut der Universität, D-6300 Gießen, Friedrichstraße 24 (Federal Republic of Germany)     

Complex-type glycoproteins synthesized in the subcommissural organ of mammals

Summary The secretory activity in the subcommissural organ (SCO) of the sheep and cow was examined by means of lectin histochemistry and cytochemistry. Among the various lectins tested, Concanavalin A (Con A) revealed glycoproteins rich in mannosyl residues in the rough endoplasmic reticulum of ependymal and hypendymal cells. One of these Con A-positive glycoproteins may represent the precursor of the specific secretory component elaborated in the SCO, giving rise to Reissner's fiber. Lens culinaris agglutinin (LCA) and Phaseolus vulgaris hemagglutinins (E-PHA and L-PHA), known to bind to oligosaccharides, as well as wheat-germ agglutinin (WGA) revealing neuraminic acid, labeled secretory granules located in the apical part of ependymal and hypendymal cells of ruminants, and also Reissner's fiber. Electron-microscopic visualization of WGA-positive material in the Golgi complex shows that complex-type glycoproteins are synthesized in the subcommissural organ of mammals. The electron-dense material is mainly secreted into the ventricular cavity and gives rise to Reissner's fiber. On the basis of lectin affinity for oligosaccharides, a structure of the complex-type oligosaccharide is proposed.     

Changes in cholinergic and noradrenergic nerves in the pregnant and postpartum uterus of the albino rat and guinea pig

The present study was undertaken to investigate the structural changes in both cholinesterase (ChE)-positive nerve fibers and adrenergic nerves with formaldehyde-induced fluorescence in pregnant and postpartum uteri of both the albino rat and guinea pig. Particular attention was directed to the relationship between these changes and the local factors associated with the growing fetus. ChE reaction was absent in the control and pregnant uterus of the guinea pig. In the albino rat, there were signs of degeneration in pregnancy. These were evidenced by vacuolation of large nerve trunks and the presence of focal segments with very faint reaction along the course of the nerve bundles. Myometrial segments from fetus-containing horns showed some fragmented nerve fibers, but at the same time some other normal ones. Most of the fine nerve bundles gave a weak reaction. Three weeks after delivery, multiple ChE fibers were found in the uterus of the albino rat. The normal appearance was, however, not regained and some nerve fibers were still fragmented. Noradrenergic (NA) nerve fibers were disintegrated and markedly reduced in number in the myometrium of the pregnant uterus of both the guinea pig and albino rat, particularly in the uterine horns that were distended by fetuses. The number of NA fibers was not significantly reduced in the tubal ends of the albino rat uterus. Three weeks after delivery, normal NA fibers were seen in the myometrium of both the albino rat and guinea pig uterus. Nerves with reduced fluorescence reaction were observed less frequently.     

Light- and electron-microscopic immunocytochemical investigation of the subcommissural organ using a set of monoclonal antibodies against the bovine Reissner's fiber

Ten monoclonal antibodies (Mabs) against glycoproteins of the bovine Reissner's fiber (RF) have been used in a structural and ultrastructural immunocyto-chemical investigation of the bovine subcommissural organ (SCO) and RF. The SCO of other vertebrate species has also been studied. For comparison, polyclonal antibodies against bovine RF (AFRU) were used. The SCO and RF of ox, pig and dogfish and the SCO of dog, rabbit, rat and frog were submitted to light-microscopic immunocytochemistry using AFRU and Mabs. Postembedding ultrastructural immunocytochemistry was applied to sections of bovine SCO using AFRU and Mabs. Bovine SCO consists of ependymal and hypendymal cell layers, the latter being arranged as cell strands across the posterior commissure, or as hypendymal rosette-like structures. All cytoplasmic regions of the ependymal and hypendymal cells were strongly stained with AFRU. Six Mabs showed the same staining pattern as AFRU, one Mab stained RF strongly and SCO weakly, two Mabs stained RF but not SCO, and, finally, one Mab (3B1) exclusively stained the apices of the ependymal and hypendymal cells. All Mabs recognized the SCO and RF of the pig. Two Mabs bound to the SCO of the dog. One Mab stained the SCO of the rabbit and another the SCO of the rat. The SCO of frog and dogfish were totally negative. Bovine SCO stained with AFRU, showed label in the rough endoplasmic reticulum (RER) and the secretory granules (SG) of the ependymal and hypendymal cells. The former, in the form of parallel cisternae, reticulum or concentric rings, was seen throughout all cytoplasmic regions. SG were abundant in the apical pole of the ependymal and hypendymal cells. Only one Mab showed a staining pattern similar to AFRU. Five Mabs showed strong reactions in the SG but weak labeling of the RER. Mab 3B1 showed the label confined to the SG only. Our results suggest that: (i) in the bovine tissue, some epitopes are present in both precursor and processed materials, whereas others are characteristic of mature glycoproteins present in SG and the RF; (ii) the bovine SCO secretes at least two different compounds present in ependymal and hypendymal cells: (iii) both compounds coexist in the same secretory granule; (iv) there are conserved, class-specific, and species-specific epitopes in the glycoproteins secreted by the SCO of vertebrates.     

Observations on the functional cytochemistry of pars intermedia of the rat hypophysis

Summary Light and electron microscopic histochemical reactions were studied in the cells of pars intermedia of the rat. The possible correlations between enzymatic reactions and endocrine functions of these cells were discussed. By combined formaldehyde and chloral vapour treatment the cells of the pars intermedia exhibited a strong yellow fluorescence suggesting the presence of a peptide or peptides with NH₂-terminal tryptophan. Masked metachromasia after acid hydrolysis was probably due to these peptides. Only a weak or no α-glycerophosphate dehydrogenase and nonspecific esterase activity was observed in the cells of pars intermedia compared to the cells of pars distalis suggesting low production rate of hormone synthesis. Specific and non-specific cholinesterases were demonstrated light and electron microscopically constantly in the cells bordering the lobules. These cells probably represent a certain type of glial cells. In the other cells the enzymatic activities varied markedly in intensity and distribution showing different ultrastructural localizations. Thus cholinesterase activities in the cells of pars intermedia reflect possibly different functional stages of the cells in their hormone production, storage and secretion processes.     

Observations on the functional cytochemistry of pars intermedia of the rat hypophysis.

Light and electron microscopic histochemical reactions were studied in the cells of pars intermedia of the rat. The possible correlations between enzymatic reactions and endocrine functions of these cells were discussed. By combined formaldehyde and chloral vapour treatment the cells of the pars intermedia exhibited a strong yellow fluorescence suggesting the presence of a peptide or peptides with NH2-terminal tryptophan. Masked metachromasia after acid hydrolysis was probably due to these peptides. Only a weak or no alpha-glycerophosphate dehydrogenase and nonspecific esterase activity was observed in the cells of pars intermedia compared to the cells of pars distalis suggesting low production rate of hormone synthesis. Specific and non-specific cholinesterases were demonstrated light and electron microscopically constantly in the cells bordering the lobules. These cells probably represent a certain type of glial cells. In the other cells the enzymatic activities varied markedly in intensity and distribution showing different ultrastructural localizations. Thus cholinesterase activities in the cells of pars intermedia reflect possibly different functional stages of the cells in their hormone production, storage and secretion processes.     

Evidence for basal secretion in the subcommissural organ of the adult rabbit

Summary Morphological evidence is presented supporting the possibility of basal secretion into hypendymal capillaries of the adult rabbit subcommissural organ (SCO). The synthetic apparatus of the SCO cell is described as well as the heterogeneous granules and vesicles which are concentrated in the basal processes bordering a widened perivascular space. The origin of the electron dense granules, of which two fairly distinct subgroups are found, is discussed.A binding of secretory sacs to the lateral plasma membrane is seen. The possibility of a lateral secretion is supported by the presence of a system of extracellular channels between SCO cells which are filled with a flocculent material resembling that of the secretory sacs.Nerve perikarya which are separated from the SCO by only a few glial fibers are demonstrated. Synapses are described in nerve fascicles bordering on the hypendymal capillaries. The possibility of an innervation of the hypendymal region is discussed as well as possible nervous connections with the pineal gland.This work was supported by grants from Statens almindelige Videnskabsfond, Copenhagen.     

The secretory ependymal cells of the subcommissural organ: Which role in hydrocephalus?

Ependyma in the central nervous system gives rise to several specialized cell types, including the secretory ependymal cells located in the subcommissural organ. These elongated cells show large cisternae in their cytoplasm, which are filled with material secreted into the cerebrospinal fluid and toward the leptomeningeal spaces. A specific secretion of the subcommissural organ was named SCO-spondin, regarding its marked homology with developmental proteins of the thrombospondin superfamily (presence of thrombospondin type 1 repeats). The ependymal cells of the subcommissural organ and SCO-spondin secretion are suspected to play a crucial role in cerebrospinal fluid flow and/or homeostasis. There is a close correlation between absence of the subcommissural organ and hydrocephalus in rat and mouse strains exhibiting congenital hydrocephalus, and in a number of mice transgenic for developmental genes. The ependymal cells of the subcommissural organ are under research as a key factor in several developmental processes of the central nervous system.     

The ependymal secretion of the fetal and adult rat subcommissural organ. morphological aspects linked to the synthesis, storage and release of the secretory products

Different localizations of secretory material are noted in adult and fetal subcommissural organ (SCO) in light microscopy. At the electron microscope level, the secretory ependymocytes reveal frequent associations among mitochondria and ribosomes of the endoplasmic reticulum (ER). In the SCO ependymocytes of the adult rat, the relationship between mitochondria and ribosomes of the ER is observed in the subgolgian zone, the ER cisternal profiles are smooth except where they face the mitochondria. Here, a constant interval of 40-45 nm separates the ribosome-coated ER membrane from the external membrane of the mitochondria. This association evidences a functional cooperation between mitochondria and ER, at least in some phases of the synthesis of the organ's gliosecretory material. By contrast, in the fetus (17-21 fetal day), the synthetic apparatus displays an entirely granular ER. The secretory products are stored as flocculent material which fills the ER cisternae. In the apical zone of the ependymocytes, as the membrane of the dense secretory granules fuses with the apical plasmalemma, the granules release their contents into the ventricular cavity. A possible link between the releasing process and the coated vesicles is discussed.     

The ependymal secretion of the fetal and adult rat subcommissural organ. morphological aspects linked to the synthesis,storage and release of the secretory products

Different localizations of secretory material are noted in adult and fetal subcommissural organ (SCO) in light microscopy. At the electron microscope level, the secretory ependymocytes reveal frequent associations among mitochondria and ribosomes of the endoplasmic reticulum (ER). In the SCO ependymocytes of the adult rat, the relationship between mitochondria and ribosomes of the ER is observed in the subgolgian zone, the ER cisternal profiles are smooth except where they face the mitochondria. Here, a constant interval of 40-45 nm separates the ribosome-coated ER membrane from the external membrane of the mitochondria. This association evidences a functional cooperation between mitochondria and ER, at least in some phases of the synthesis of the organ's gliosecretory material. By contrast, in the fetus (17-21 fetal day), the synthetic apparatus displays an entirely granular ER. The secretory products are stored as flocculent material which fills the ER cisternae. In the apical zone of the ependymocytes, as the membrane of the dense secretory granules fuses with the apical plasmalemma, the granules release their contents into the ventricular cavity. A possible link between the releasing process and the coated vesicles is discussed.     

Light- and electron-microscopic investigation of the rat subcommissural organ grafted under the kidney capsule,with particular reference to immunocytochemistry and lectin histochemistry

Summary There is increasing evidence that, in the rat, a serotonin-mediated neural input may have an inhibitory influence on the secretory activity of the subcommissural organ (SCO). In the present investigation the rat SCO was studied 7, 30 and 90 days after transplantation under the kidney capsule, an area devoid of local serotonin-containing nerves. The grafted tissue was examined by use of immunocytochemistry employing a series of primary antisera, lectin histochemistry and transmission electron microscopy. The grafted SCO survived transplantation and contained, in addition to secretory ependymal and hypendymal SCO-cells, also elements immunoreactive with antisera against glial fibrillary acidic protein or S-100 protein. In transplants, SCO-cells produced a material displaying the characteristic immunocytochemical and lectin-binding properties of SCO-cells observed under in-situ conditions. The ependymal cells lined 1–3 small cavities, which contained secretory material. A fully developed structural equivalent of Reissner's fiber was, however, never found. The immunocytochemical and ultrastructural study of the grafted SCO showed an absence of nerve fibers within the graft and suggested a state of enhanced secretory activity. A network of protruding basal lamina structures connected the secretory cells to the newly formed capillaries revascularizing the SCO. One week after transplantation, long-spacing collagen started to appear in expanded areas of such laminar networks and also in the perivascular space. It is suggested (i) that the formation of long-spacing forms of collagen is triggered by factors provided by the SCO-secretory cells, and (ii) that secretory material of the ependymal and hypendymal cells may reach the reticular extensions of the basal lamina. In contrast to the SCO in situ, the grafted SCO-cells showed a positive immunoreaction for neuron-specific enolase. They became surrounded by a S-100-immunoreactive glial sheath that separated them from other transplanted cell types and the adjacent kidney tissue of the host.Supported by Grant I/63 476 from the Stiftung Volkswagenwerk, Federal Republic of Germany, Grants 187 and 0890/88 from Fondo Nacional de Desarrollo Cientifico y Tecnológico, Chile, and Grant S-85-39 from the Directión de Investigaciones, Universidad Austral de Chile. The authors wish to acknowledge the valuable help of Ms. Elizabeth Santibañez and Mr. Genaro Alvial (Valdivia) and Ms. Inge Lyncker (Giessen)     

Ontogenetical development of the chick and duck subcommissural organ. An immunocytochemical study

The ontogenetical development of the subcommissural organ (SCO) was investigated in chick embryos collected daily from the 1st to the 21st day in incubation. Some duck embryos, and adult chickens and ducks were also studied. Immunocytochemistry using an anti-Reissner's fiber (RF) serum as the primary antibody was the principal method used. In the chick embryos the events occurring at different days of incubation were: day 3 morphologically undifferentiated cells in the dorsal diencephalon displayed immunoreactive material (IRM); days 4 to 6 immunoreactive cells proliferated, formed a multilayered structure and developed processes which traversed the growing posterior commissure and ended at the brain surface; day 7 blood vessels penetrated the SCO, scarce hypendymal cells appeared, the first signs of ventricular release of IRM were noticed, appearance of IRM bound to cells of the floor of the Sylvius aqueduct; day 7 to 10 the number of apical granules and amount of extracellular IRM increased progressively; day 11 RF was observed along the Sylvian aqueduct, day 12 RF was present in the lumbar spinal cord; day 13 IRM on the aqueductal floor disappeared; days 10 to 21 hypendymal cells proliferated, developed processes and migrated dorsally, ependymal processes elongated and their endings covered the external limiting membrane. In adult specimens the ependymal cells lacked basal processes and the external membrane was contacted by hypendymal cells. the duck SCO appears to follow a similar pattern of development.     

The subcommissural organ of the frog Rana perezi is innervated by nerve fibres containing GABA

The innervation of the frog subcommissural organ was studied by light-microscopic and ultrastructural immunocytochemistry using antisera against serotonin, noradrenaline, dopamine, gamma-aminobutyric acid (GABA), glutamic acid decarboxylase, different GABA receptor subunits and bovine Reissner's fibre material (AFRU). In the proximity of the organ, serotonin- and noradrenaline-containing fibres were rare whereas dopamine-immunoreactive fibres were more numerous. Many GABA- and glutamic acid decarboxylase-containing nerve fibres were found at the basal portion of the ependymal cells of the subcommissural organ. Under the electron microscope, these GABA-immunolabelled nerve endings appeared to establish axoglandular synapses with secretory ependymal cells of the subcommissural organ. In addition, the secretory ependymal cells expressed high amounts of the beta2-subunit of the GABA(A) receptor. Since GABA-immunoreactive neurons were present in the frog pineal organ proper and apparently contributed axons to the pineal tract, we suggest that at least part of the GABAergic fibres innervating the frog subcommissural organ could originate from the pineal organ.     

Studies on the subcommissural organ of Salmo gairdneri

The light microscopic analysis of serial sections of the subcommissural organ (SCO) of the rainbow trout (Salmo gairdneri) shows that the form of the groove-like (in cross section) organ varies over its total length. Its rostral origin is a tunnel-like structure anterior to the orifice of the hollow pineal stalk. The SCO forms the dorsal wall of the brain. Caudally the SCO is increasingly displaced from the surface of the brain by the fibers of the posterior commissure; the organ ends in a tabular area beyond the latter. The orifice of the pineal stalk is surrounded by the ependyma of the SCO that invaginates like a funnel and joins with the ependyma of the pineal stalk after a considerable narrowing. The rudimentary parapineal organ is located on the left side of the brain and is connected with the left habenular ganglion through the parapineal tract. It contacts the third ventricle with a short channel within the ependyma of the SCO. The histological organization of the ependymal and hypendymal cells of the SCO is typical of teleosts. Secretory material is located basally and apically in relation to the nucleus, but there is no indication of a basal secretory release. Basal ependymal processes terminate with broadened endings at the membrana limitans externa. The apical product is discharged into the third ventricle, where it aggregates into the thread-like structure of Reissner's fibre. The SCO cells have no direct contact with cerebral or meningeal blood vessels.     

Immunohistochemical evidence for neuronal and non-neuronal synthesis of GABA in the rat subcommissural organ

In the past few years, several studies have demonstrated in the rat subcommissural organ the presence of nerve endings and modified ependymocytes showing an uptake of [³H]GABA. The present work was performed to demonstrate in this cerebral zone the possibility of a GABA synthesis by the immunohistochemical localization of glutamate decarboxylase (GAD). GAD-positive reaction was detected with unlabelled antibody-enzyme peroxidase anti-peroxidase. Some nerve terminals containing either clear round vesicles, or sometimes clear round vesicles and some large granular vesicles, exhibited a positive staining. These terminals could belong to GABAergic inputs in the subcommissural organ. The few reactive terminals containing some granular vesicles could be related to the serotoninergic input as suggested previously (Gamrani et al., 1981). Several ependymocytes of this structure contained GAD-like positive reaction; these cells are also capable of taking up [³H]GABA (Gamrani et al., 1981) and present neuronal properties with regard to GABA. However, the presence in their cytoplasm of enolase, a specific glial marker, related them to glial elements. The presence of GABA in these ependymocytes suggests a modulating function of GABA on the secretory activity of the subcommissural organ.     

CHOLINESTERASE IN DENERVATED END PLATES AND MUSCLE FIBRES

Parallel studies were made of cholinesterase activities and localizations in denervated rat and rabbit gastrocnemius muscle. Koelle's histochemical reaction was used for demonstrating the localization of cholinesterases. Enzyme activities in whole sliced muscle were measured by electrometric titration. The Cartesian ampulla-diver technique was used for cholinesterase activity determinations in end plate regions or in small pieces of the muscle fibre itself. No changes in the activity of cholinesterases (ChE) were found in the whole denervated muscle which would account for its chemical supersensitivity. The ChE distribution pattern was changed so that the end plate region became less active in the denervated muscle than in the normal one. The decrease in ChE activity in the end plates seems to be largely compensated for by an increase of this enzyme elsewhere in the muscle. A possible connection between the spatial spread of cholinesterase activity and the enlargement of the acetylcholine-sensitive surface is discussed.     

Contribution to histochemical distribution of non-specific cholinesterase activity in sensory ganglia of some mammals

The activity of non-specific cholinesterase was demonstrated histochemically in satellite cells of the spinal ganglia from adult rat, cat, rabbit and baboon. The spinal ganglia of newborn rats displayed distinct intraneuronal reactivity for non-specific cholinesterase while a low reactivity was observed in satellite cells. The spinal and trigeminal ganglia of adult mice contained satellite cells with non-specific cholinesterase reactivity only sporadically. Most of reaction product for non-specific cholinesterase activity (from low to high intensity) was found in perikarya of the neurons. Spinal and trigeminal ganglia of the same mice embryo exhibited diffuse staining for non-specific cholinesterase activity remaining in the spinal ganglia of newborn mice. The trigeminal ganglia of newborn mice exhibited, however, more differentiated pattern of the positive reaction for non-specific cholinesterase like adult animals. The pattern of histochemical distribution of non-specific cholinesterase activity in trigeminal and spinal ganglia from mice of various ages corresponds with morphological differentiation and maturation undergoing in a rostrocaudal wave. Intraneuronal presence of non-specific cholinesterase activity in sensory ganglia during development and in adult animals gives a new possibilities for explanation of the functional involvement of this enzyme in the nervous system.     

Notes on Technic: Differential staining of Fungus and host cells Using a modifciation of Pianeze IIIB

Intercellular secretory capillaries in parotid glands, eccrine sweat glands and intracellular secretory capillaries in parietal cells of gastric glands were demonstrated histo-chemically by the use of the Wachstein-Meisel adenosinetriphosphatase (ATPase) technique in the rabbit, rat and guinea pig. However, with the Wachstein-Meisel 5-nucleotidase technique, secretory capillaries were not stained. For parotid glands, optimal incubation in ATPase substrate mixture was: in rabbit, 15 min; in rat, 2.5 hr; and in guinea pig, 2 hr. For eccrine sweat glands, optimal incubation was 15 min in rabbit, 30 min in rat and 15 min in guinea pig. For parietal cells of gastric glands, optimal incubation was 3 hr for all three species. Secretory capillaries were best demonstrated in the parotid by using rabbit tissue; in eccrine sweat glands, with rat tissue, and in parietal cells, guinea pig tissue. Since ATPase activity in cell membranes of secretory cells may play a part in the mechanism of transport of secretory products from their place of formation in the acini to the excretory ducts, the Wachstein-Meisel ATPase technique can therefore be used successfully for staining secretory capillaries in many of the exocrine glands of laboratory mammals.     

Scanning electron microscope observations of the rat subcommissural organ.

Under the scanning electron microscope, the rat subcommissural organ (SCO) appears as an oval zone, rich in kinocilia and well delimited from the non-specific ependymal epithelium. This zone surrounds the cranial and posterior part of the mesencephalic canal's entrance. The ependymal cells of the SCO show coniform processes with microvilli and kinocilia. In contact with the apical pole of the peripheric SCO-ependymocytes lie scarce supraependymal axons. The Reissner's fiber is composed by the twining of the fibrillary structures emerging from the area of the SCO.