Photoreceptor membrane breakdown in the spider Dinopis: The fate of rhabdomere products

Summary Photoreceptor membrane breakdown at dawn in the posterior median eyes of the spider Dinopis is described. Coated and smooth vesicles are shed into the receptor cytoplasm and are assembled into multivesicular bodies of two kinds: (i) Coated vesicles form loosely-assembled multivesicular bodies (mvbs) whose bounding membranes are derived from endoplasmic reticulum. (ii) Smooth vesicles generated by the mass disintegration of membrane aggregate to yield tightly-assembled multivesicular bodies which are not membrane-bound. Both types are either lysed in the inter-rhabdomeral cytoplasm, or degrade via multi-lamellar bodies to residual bodies (rbs) while they are being transported to the intermediate segments. Two systems are associated with lysis. Nebenkerne produced by the rapid differentiation of GERL in the intermediate segments fuse with membrane-bound mvbs or rbs and may inject them with hydrolases. Partially-differentiated rigid tubules (Blest et al., 1978) travel to the receptive segments together with RER from the intermediate segments and also fuse with or engulf mvbs. Both systems may contain pro-enzymes which are activated at their target sites. No evidence of a close or necessary geometrical relationship between GERL and Golgi bodies has been seen, and there is no clear demarcation between RER, smooth ER and GERL which is entering into continuity with or engulfing mvbs. The implications of these findings for hypotheses about the origins of isolation membranes and autolytic systems in invertebrate systems are briefly discussed.The authors thank Professor D.T. Anderson, F.R.S., for our use of field facilities at the Crommelin Biological Field Station of Sydney University at Warrah, Pearl Beach, N.S.W., Andrew & Sally Austin and Sally Stowe for help in the field, and Joanne Maples for technical assistance. Professor T.H. Waterman and Dr. V.B. Meyer-Rochow kindly gave us access to certain of their results prior to publication. We are indebted to Rod Whitty and the Electron Microscopy Unit for advice and support throughout these studies     

Photoreceptor membrane breakdown in the spider Dinopis: Localisation of acid phosphatases

Summary The ultrastructural localisation of acid phosphatases (AcPhs) during the normal daily breakdown of rhabdomere membrane in Dinopis has been examined using -glycerophosphate and p-nitrophenyl phosphate as substrates. Results are related to the classification of organelles in the receptors given by Blest, Powell and Kao (1978). Weak and infrequent reactions are obtained in multivesicular bodies (mvbs) and multilamellar bodies (mlbs) derived from them. Residual bodies (rbs) begin to react strongly as they lyse. Source of AcPhs is endoplasmic reticulum which has barely differentiated towards the GERL configuration; it becomes reactive as it is incorporated into secondary lysosomes. GERL tubules, Y-bodies and vesicles respond erratically and weakly, and are also incorporated into rbs. No evidence was found for a significant participation of Golgi bodies in these processes, and acid phosphatase cytochemistry fails to reveal a topographical relationship between GERL in these cells and Golgi saccules. Coated vesicle clusters found in the predawn receptive segments are AcPh-negative; this implies that their previous identification as GERL-derived Nebenkerne carrying hydrolytic enzymes to newly-formed mvbs (Blest, Kao and Powell, 1978) is dubious. Isolation bodies and autophagic vacuoles enclosing other organelles in pathological receptors give strong reactions while adjacent secondary lysosomes derived from rhabdomere membrane and associated GERL give weak ones. It is concluded that rhabdomere-derived rb lysis is more tightly regulated than other autophagic processes, and it is suggested that a high degree of control is necessary in a receptor which may repeat the autophagy of a large mass of transductive membrane at least 60–100 times in the course of its working life.The authors thank Professor D.T. Anderson F.R.S. for the use of field facilities at the Crommelin Biological Field Station of Sydney University at Warrah, Pearl Beach, New South Wales throughout all these studies; Dr. Gary Griffiths (EMBO, Heidelberg) and Dr. Alex Pyliotis (Biochemistry, SGS, Australian National University) for some helpful comments on acid phosphatase histochemistry; Sally J. Stowe for help in the field; and Rod Whitty and the staff on the Electron Microscopy Unit for advice and support. Figure 28 was prepared by Chris Snoek     

Freeze-etch and histochemical evidence for cycling in crayfish photoreceptor membranes

Summary Freeze-etched rhabdoms and adjacent cytoplasmic organelles from crayfish compound eyes have been studied for evidence of photoreceptor membrane cycling. The protoplasmic leaflet face (PF) of split photoreceptor membrane of the microvilli is richly particulate. The particles (92±16 A in diameter in surface fractures; 70±9 A in cross fractures; density about 8000/m²) probably indicate rhodopsin molecule localization. Closely similar particles appear in membranes of pinocytotic vesicles, multivesicular bodies (MVB) and secondary lysosomes. In contrast other retinular cell membranes like plasma membrane remote from the rhabdom are quite distinct (60±23 A particle diameter, density ca 1000/m²). Histochemical tests for acid phosphatase demonstrate its presence in well-developed (but not early stage) MVBs, mixed lamellar vesicular bodies (LVB) and lamellar bodies. Density of PF particles decreases from 8000 in MVB to roughly 4500/m² in LVB indicating a degradative sequence from rhabdom to lamellar bodies. Membrane leaflet orientations show that primary endocytosis from microvilli must be followed by secondary endocytosis of fused coated vesicles to form MVB. Morphological evidence for photoreceptor membrane resynthesis has not been found yet in crayfish but some has been obtained in other crustaceans.This research was supported by grants from the U.S. National Institutes of Health (EY 00405), the National Geographic Society and the Japan Society for the Promotion of ScienceThe authors are grateful to Mr. Washioka of the JEOL Co. Research Laboratory for his essential help in effecting the freeze-etch preparations. They also thank Professor Ryoji Kikuchi of Tokyo Women's Medical College for welcome cooperation and hospitality as well as Dr. Karl Pfenninger of Yale University for his generous assistance in interpreting the freeze-etch data. Technical advice and help were also kindly provided on the acid phosphatase histochemistry by Professor Marilyn Farquhar and others in the Yale Cell Biology Section     

Changes in composition of the outer epidermal cell wall of pea stems during auxin-induced growth

The gross composition of the outer epidermal cell wall from third internodes of Pisum sativum L. cv. Alaska grown in dim red light, and the effect of auxin on that composition, was investigated using interference microscopy. Pea outer epidermal walls contain as much cellulose as typical secondary walls, but the proportion of pectin to hemicellulose resembles that found in primary walls. The pectin and hemicellulose fractions from epidermal peels, which are enriched for outer epidermal wall but contain internal tissue as well, are composed of a much higher percentage of glucose and glucose-related sugars than has been found previously for pea primary walls, similar to non-cellulosic carbohydrate fractions of secondary walls. The epidermal outer wall thus has a composition rather like that of secondary walls, while still being capable of elongation. Auxin induces a massive breakdown of hemicellulose in the outer epidermal wall; nearly half the hemicellulose present is lost during 4 h of growth in the absence of exogenous sugar. The percentage breakdown is much greater than has been seen previously for whole pea stems. It has been proposed that a breakdown of xyloglucan could be the basis for the mechanical loosening of the outer wall. This study provides the first evidence that such a breakdown could be occurring in the outer wall.M.S. Bret-Harte would like to thank Dr. Peter M. Ray, of Stanford University, for helpful discussions and for technical and editorial assistance, Dr. Winslow R. Briggs, of the Camegie Institude of Washington, for the use of experimental facilities and for helpful discussions, Dr. Wendy K. Silk, of the University of California, Davis, for helpful discussions and financial support, Dr. Paul B. Green for financial support, and Drs. John M. Labavitch and L.C. Greve, of the University of California, Davis, for performing the -cellulose analysis on short notice, in response to a request by an anonymous reviewer. This work was supported by a National Science Foundation Graduate Fellowship to M.S. B.-H., National Science Foundation Grant DCB8801493 to Paul B. Green, and the generosity of Wendy K. Silk (Department of Land, Air, and Water Resources, University of California, Davis) during the final writing.     

Photoreceptor membrane breakdown in the spider Dinopis: GERL differentiation in the receptors

Summary In the spider Dinopis, retinae of the posterior median eyes synthesise new photoreceptor membrane in bulk at dusk and destroy it at dawn (Blest, 1978). During the dawn period, there is a rapid, anticipatory differentiation of unusual organelles from the rough endoplasmic reticulum (RER) in the intermediate segments of the receptors. This system is classified as GERL. Its products appear to play a role in the autolysis of photoreceptor membrane. Consistent topographical relationship to Golgi bodies has not been determined. Circumscribed regions of RER whorls first reorganise to yield fenestrated profiles; these differentiate further to a number of structures by condensation and loss of ribosomes. Smooth tubular profiles are termed rigid tubules to indicate their probable homology with the rigid lamellae of vertebrate secretory cells. More complex smooth multilocular bodies are also produced. Evidence is discussed which implies that both rigid tubules and multilocular bodies give rise to condensing vacuoles. These, in turn, pinch off coated vesicles assembled as Nebenkerne. Some rigid tubules are transported to the interrhabdomeral cytoplasm of the receptive segments. At late stages of differentiation, rigid tubules, multilocular bodies and Nebenkerne give strong, positive responses to zinc iodide-osmium tetroxide (ZIO) treatment; early stages and both cis and trans Golgi components do not. GERL differentiation is independent of immediate illumination of the retina at dawn. It is suggested to mediate the lysis of membrane degradation products by the production of hydrolases.We thank Professor D.T. Anderson F.R.S. for our use of field facilities at the Crommelin Biological Field Station of Sydney University at Warrah, Pearl Beach, N.S.W., and Andrew and Sally Austin and Sally Stowe for help in the field. We are indebted to Rod Whitty and the Electron Microscopy Unit for advice and support throughout these studies     

Immunogold localization of chymotrypsin inhibitor-2, a lysine-rich protein,in developing barley endosperm

Chymotrypsin inhibitor-2, a lysine-rich protein in the barley endosperm, has been localized at the ultrastructural level by immunocytochemistry in developing barley endosperm cells 14 days post anthesis. The protein is deposited in the protein bodies. Two morphologically distinct types of protein bodies, small spherical and large irregularly shaped, are present. Golgi-apparatus-derived vesicles whose content is labelled by chymotrypsin inhibitor-2 antibody-gold particles are observed at the Golgi complex and around the vacuoles. These observations indicate that the transport of the protein to the site of deposition is mediated by the Golgi apparatus.Abbreviations CI chymotrypsin inhibitor - DPA days post anthesis - ER endoplasmic reticulum The authors wish to thank Dr. V.R. Franceschi (Department of Botany, Washington State University, Pullman, USA) for many helpful discussions and advice during the work, and the staff at the Electron Microscope Center at Washington State University for technical assistance.     

Immunocytochemical demonstration of lysosomal matrix vesicles in the arterial wall of the rat

Summary Following necrobiosis of the smooth muscle cells (SMC) of the vessel wall, lysosomes are still able to live for a time in the extracellular space. Here they are known as lysosomal matrix vesicles (MV). Their lysosomal origin can be confirmed by the immunocytochemical demonstration of -N-acetylglucosaminidase (-NAG) in extracellular MV. A positive reaction to the enzyme-cytochemical test for acid phosphatase establishes that these lysosomal MV are enzymatically active. The role of the lysosomal MV in the pathogenesis of vascular diseases is seen, in an uncontrolled, locally limited destruction and alteration of the intercellular substance.Dedicated to Professor Dr. T.H. Schiebler on the occasion of his 65th birthday     

Colchicine-induced tubular, vesicular and cisternal organelle aggregates in absorptive cells of the small intestine of the rat. II.--Endocytosis studies

Administration of the antimicrotubular agent colchicine to adult rats (0.5 mg/100 g of body weight for 6 hr) induces formation of extended aggregates of tubular, vesicular, and cisternal organelles in the absorptive cells of the small intestine. The phosphatase reaction pattern (thiamine pyrophosphatase, acid phosphatase, acid trimetaphosphatase) suggests that the majority of them belongs to the lysosomal system (Ellinger and Pavelka, 1984). The present study extends these findings and examines the uptake and fate of intravenously injected horseradish peroxidase (HRP) at the basal and lateral cell surfaces and of intraluminally applied HRP at the apical cell surface. HRP, applied to control animals and animals pretreated with colchicine, was internalized at both apical and basolateral cell surfaces of the absorptive cells, and delivered into endosome-like vesicles, multivesiculated bodies (mvbs), dense bodies (dbs), and in several instances into Golgi cisternae. Following intraluminal application, evidence was obtained for the transport of HRP across the cell; in contrast, intravenously applied HRP was never detected at the apical cell surface. Colchicine pretreatment did not stop the uptake of HRP, which was rapidly sequestered to the clustered tubules, vesicles, and cisternae, as well as to the mvbs and dbs. After longer intervals, the portion of HRP-reactive tubules, vesicles, and cisternae within the clusters increased: 60 min after HRP-administration all of them contained HRP-activity. These results indicate that the colchicine-induced clustered organelles are recipients of endocytic materials internalized at the apical as well as at the basolateral cell surface.     

Ultrastructure of the pineal organ of the killifish,Fundulus heteroclitus,with special reference to the secretory function

Summary The pineal organ of the killifish, Fundulus heteroclitus, was investigated by electron microscopy under experimental conditions; its general and characteristic features are discussed with respect to the photosensory and secretory function. The strongly convoluted pineal epithelium is usually composed of photoreceptor, ganglion and supporting cells. In addition to the well-differentiated photosensory apparatus, the photoreceptor cell contains presumably immature dense-cored vesicles (140–220 nm in diameter) associated with a well-developed granular endoplasmic reticulum in the perinuclear region and the basal process. These dense-cored vesicles appear rather prominent in fish subjected to darkness. The ganglion cell shows the typical features of a nerve cell; granular endoplasmic reticulum, polysomes, mitochondria and Golgi apparatus are scattered in the electron-lucent cytoplasm around the spherical or oval nucleus. The dendrites of these cells divide into smaller branches and form many sensory synapses with the photoreceptor basal processes. Lipid droplets appear exclusively in the supporting cell, which also contains well-developed granular endoplasmic reticulum and Golgi apparatus. Cytoplasmic protrusions filled with compact dense-cored vesicles (90–220 nm in diameter) are found in dark-adapted fish. The origin of these cytoplasmic protrusions, however, remains unresolved. Thus, the pineal organ of the killifish contains two types of dense-cored vesicles which appear predominantly in darkness. The ultrastructural results suggest that the pineal organ of fish functions not only as a photoreceptor but also as a secretory organ.We thank Dr. Grace Pickford for the fishes.     

Responses of pineal photoreceptors in the brook and rainbow trout

Summary Electron microscopy of the pineal receptor cells in light- and dark-adapted brook trout, Salvelinus fontinalis and the rainbow trout, Salmo gairdneri, revealed no significant differences in the tubular and filamentous elements of the inner segment, neck and supranuclear regions. However, changes in synaptic relations between the photoreceptor and nerve cell were induced by light and darkness. In the light-adapted state, the synaptic relationship between axon terminals and photoreceptor basal processes predominates, while in darkness the synapses between photoreceptor basal processes and ganglion cell dendrites are more prominent. Further, in darkness, the photoreceptor basal processes show a number of synaptic vesicles and synaptic ribbons. These findings suggest that the sensory function of the fish pineal is enhanced during darkness but inhibited by light, and that the synaptic relationships are involved in the control of sensory activity in the pineal photoreceptor and ganglion cells. These results corroborate those of electrophysiological studies in that the maximal spontaneous discharge frequency of the ganglion cells occurs in the dark, and it also shows a burst when light is removed. The typical chemical synapse between the axon terminal and the photoreceptor basal process in light seems to function as an inhibitor.The authors thank Dr. Mary Ann Klyne for her assistance in several aspects of this work. Financial assistance was provided by the NSERC of Canada and the Ministry of Education of Québec     

An electron microscopical study of absorbing cells in the posterior caput epididymidis of rabbits

Summary The columnar cells in regions 3 and 4 of the ductus epididymidis in rabbits display ultrastructural features characteristic of absorbing cells. The stereocilia show basal anastomoses and often a fibrillar core continuous with a fibrillar web in the apical cytoplasm. Numerous invaginations of the slightly downy apical cell membrane and many thick-walled apical vesicles and vacuoles contain an opaque substance similar to that seen in the lumen. The vacuoles often contain small vesicles or bodies, probably formed from the vacuolar wall by budding. Numerous bodies or vacuoles with moderately dense contents are seen in the Golgi area and in the supranuclear and intranuclear cytoplasm in region 3. In region 4 they are denser and mainly seen above the nucleus. A high acid phosphatase activity was demonstrated in most dense and some light bodies. India ink introduced by way of the rete testis was taken up from the lumen into apical invaginations, vesicles and vacuoles and slowly transferred to denser bodies below the Golgi apparatus.These observations are interpreted as evidence for a resorption of substances from the lumen by a pinocytotic process, and for their storage and perhaps digestion in the dense bodies, which appear to have a lysosomal character. The Golgi apparatus is large with many vesicles of two types and empty cisternae but few typical Golgi vacuoles. The partly granular endoplasmic reticulum is very well developed and has opaque contents. Microtubules run from the terminal bar region into the Golgi area. Thick-walled vesicles occur throughout the cytoplasm, sometimes in continuity with the cell membrane. The basal parts of the cell borders often interdigitate.Supported by a grant from the Swedish State Medical Research Council.     

The fine structure of photoreceptors in a marine flatworm

Summary The ocelli or eyes of the marine polyclad turbellarian Notoplana acticola are clustered on the paired dorsal nuchal tentacles and in two longitudinal bands lateral to the cerebral ganglion. The ocelli, studied by electron microscopy, were characterized as rhabdomeric and non-ciliary in origin. There are 60 to 80 ocelli per animal each enclosed in a fibrous capsule to which muscle fibers may attach. An ocellus consists of a pigmented eyecup into which 30 to 50 photoreceptor cells send dendritic processes through interruptions in or among pigment cell projections across the eyecup opening. The dendritic processes terminate in numerous long intertwined microvilli which fill the eyecup. The nucleated cell body of each photoreceptor cell lies outside the eyecup and projects an axonal process to the cerebral mass. Within the dendritic processes are observed mitochondria, ribosomes, neurotubules, multivesicular bodies, vesicles and vacuoles. The cell body contains smaller mitochondria, endoplasmic reticulum, ribosomes, vesicles and prominent Golgi complexes.After dark adaptation, there are some structural alterations in terms of swelling of microvilli, increased numbers of vacuoles associated with the microvilli and dendritic processes, and changes in the pigment cell projections.This work was supported by Grant No. GM 10292 from the U.S. Public Health Service to Professor Richard M. Eakin, Department of Zoology at the University of California, Berkeley, U.S.A., where this investigation was conducted during the author's sabbatical leave of absence from the University of Illinois, and by Grant No. 1 SO 1 FR 5369 from the U.S. Public Health Service to the University of Illinois at the Medical Center.I express appreciation to Professor Eakin for interesting discussions and generous hospitality to me as a guest in his laboratory, and to the John Simon Guggenheim Memorial Foundation for the Fellowship which I held during 1964–65. I thank Dr. John P. Marbarger, Director of the Aeromedical Laboratory for the electron microscope facilities used at the University of Illinois.     

AFLP analysis of phylogenetic relationships among myrmecophytic species of Macaranga (Euphorbiaceae) and their allies

The palaeotropic pioneer tree genus Macaranga Thouars (Euphorbiaceae) is characterized by various types of mutualistic interactions with specific ant partners (mainly Crematogaster spp.). About 30 species are obligate ant-plants (myrmecophytes). We used amplified fragment length polymorphism (AFLP) markers to assess phylogenetic relationships among 108 Macaranga specimens from 43 species, including all available taxa from the three sections known to contain myrmecophytes. Eight primer combinations produced 426 bands that were scored as presence/absence characters. Banding patterns were analyzed phenetically, cladistically and by principal coordinates analysis. Monophyly of section Pruinosae is clearly supported. There is also good evidence for a monophyletic section Pachystemon that includes the puncticulata group. The monophyly of section Winklerianae and relationships between the three sections remain ambiguous. Section Pachystemon is subdivided into four well-supported monophyletic subclades that presumably correspond to taxonomic entities.We acknowledge the support by the Deutsche Forschungsgemeinschaft (DFG Fi606/4-1, DFG We1830/2-1, 4-1 and 4-2), which in part was granted in the frame of the DFG-SPP 1127 Radiations: origins of biological diversity. Part of the plant material was kindly supplied by Dr. H. Feldhaar (University of Würzburg), Dr. U. Moog (University of Kassel) and Dr. F. Slik (Leiden University Branch, Nationaal Herbarium Nederland). We thank the University of Malaysia (Dr. Rosli b. Hashim) and Taman Taman Sabah (Datuk Lamri Ali; Dr. J. Nais) for permits and logistic support, and EPU for permission to conduct research in Malaysia.     

Identification and localisation of a nucleoporin-like protein component of the plant nuclear matrix

Salt-detergent extraction of purified plant nuclei yields a fraction enriched in putative structural proteins known as the nuclear matrix. Compared with mammalian nuclear matrices, which contain three major proteins, plant nuclear matrices are complex, containing at least 100 polypeptides. In order to characterise more fully the plant nuclear matrix we have used antibodies raised against both yeast (Saccharomyces cerevisiae) and mammalian (rat) nuclear pore proteins. We have shown that the nuclear matrix of carrot (Daucus carota L.) contains at least one nucleoporin-like protein of about 100 kDa which is immunologically related to both the yeast nuclear pore protein NSP1 and mammalian nucleoporins (p62). Antibody labelling of a variety of plant cells at the light-microscope and electron-microscope levels confirms that this antigen is located at the nuclear pores. This, to our knowledge, is the first identification of a nuclear pore protein in plants.Abbreviations IgG immunoglobulin G - kDa kilodaltons - DAPI 4,6-diamidino-2-phenylindole - FITC fluorescein isothioganate The authors would like to thank Dr. E. Hurt (European Molecular Biology Laboratory, Heidelberg, FRG) for antibodies against yeast nucleoporins, and Dr. L. Davis (Whitehead Institute for Biomedical Research, Cambridge, Mass., USA) for the monoclonal antibodies MAb 414 & 350. We thank Brian Wells for useful advice on electron microscopy. We also thank Peter Scott, Andrew Davis, and Nigel Hannant for photography, and Sue Bunnewell for development and printing of electronmicrographs.     

Age changes in the centrally and peripherally located sensory neurons in rat

Summary Lipofuscin pigment formation and distribution in the Mes. N.5 neurons, trigeminal and spinal ganglia of male Wistar rats of 2, 14, 32 and 49 months as an indication of aging has been investigated. These intraneuronal pigment granules are found as early as 2 months in all the cells, and continue to accumulate in all the cells in varying amounts until the first year of life. The different rate at which lipofuscin accumulates probably shows the difference in the maturation of the functionally related cells. At later stages the obvious findings are complex pigment body formation and localization of the pigment bodies either at one pole as seen in the Mes. N. 5 neurons or arranged submembranously parallel to the long axis of the cells in the ganglia. The vacuolated lipofuscin pigment bodies are bound by a double limiting membrane and among the vacuoles are found tubular membranous structures resembling residual mitochondrial substructures. These findings suggest a mitochondrial origin of lipofuscin, rather than a lysosomal. The intracellular pigment bodies seen in the perineuronal satellite cells of peripheral ganglia appear to be signs of removal of lipofuscin from the ganglion cells. Acknowledgements. We wish to thank Mr. J. Kirchhoff, Miss E. Heyder, Mr. W. Dresp and Mrs. M. del C. Weinrichter for the technical assistance, Mr. R. Dungan and Mrs. S. Ruelke for the photographic work. We are grateful to the DAAD and the Universitätsbund of the University of Göttingen for the financial assistance. This work was supported by the Deutsche Forschungsgemeinschaft, Grant No. G1 28, 16/17.DAAD fellow on leave from the Department of Anatomy, A.I.I.M.S., New Delhi 16, India.     

Immunoelectronmicroscopic localization of vasopressin in the rat suprachiasmatic nucleus

Summary The classical areas for arginine-vasopressin (AVP) synthesis are the magnocellular supraoptic (SON) and paraventricular nuclei. More recently AVP was also demonstrated in neurons of the parvocellular suprachiasmatic nucleus (SCN) of the rat. This result was substantiated in the present study by means of immunoelectron microscopy, by subjecting sections to antivasopressin plasma. Conventional electron microscopy revealed dense-core vesicles in the SCN cell bodies and fibres (mean diameter 94.7±0.9 nm and 84.0±1.1 nm respectively). These vesicles were infrequent within the cell bodies and could not be accumulated by ethanol administration. Immunoelectron microscopy showed a positive reaction in the cell bodies and fibres within vesicles of 93.7±1.1 nm and 98.5±1.2 nm respectively. By comparison, the cell bodies and fibres of the SON showed immunoreactive granules of 143.0±1.8 and 147.3±1.8 nm respectively. The presence in the SCN of AVP in vesicles of different size than those in the SON suggests that synthesis of this substance is indeed occurring within the SCN cells.Supported by The Foundation for Medical Research FUNGOThe authors wish to thank Dr. L.A. Sternberger (Edgewood Arsenal, Md., U.S.A.) for the peroxidase-anti-peroxidase complex, Dr. J.G. Streefkerk (Free University, Amsterdam) and the members of our project group Neuroendocrinology for their suggestions, Mr. P.S. Wolters and Miss A. van der Veiden for their skilled assistance     

Juvenile hormone and the ultrastructural properties of the fat body of the adult Colorado beetle,Leptinotarsa decemlineata say

Summary In the fat body of ovipositing female Colorado beetles, two types of lobes occur. The first type, the internal fat body, is highly specialised for protein synthesis. A lobe of the second type, the peripheral fat body, contains two types of cells, oenocytes and glycogen cells. Ovariectomy, performed at adult moult results in hypertrophy of the glycogen cells of the peripheral fat body. The lobes are characterized by the storage of lipid bodies and glycogen and by numerous mitochondria. Short-day conditions ab ovo, which induce diapause in adults, also result in hypertrophy of glycogen cells of the peripheral fat body. Furthermore, only few mitochondria occur but many proteinaceous bodies may be observed, which conditions are in contrast to the observed effects of castration. The fat body of allatectomized long-day females, has the same structure as that of short day beetles. Consequently a lack of juvenile hormone induces the proteinaceous bodies.Dr. A. De Loof gratefully acknowledges a scholarship as Aspirant of the National Foundation of Scientific Research in Belgium. We wish to thank Prof. Dr. h. C. J. de Wilde for his suggestions and helpfull criticism. We also thank Mr. W. Bohijn for his help in operating the EM and Mr. G. Maes for photography.     

The frontal ganglion of Periplaneta americana L. (insecta)

Summary The frontal ganglion, part of the stomatogastric nervous system, contains about 60 to 80 neurons, 25 to 30 m in diameter. A well developed Golgi system, producing dense-core vesicles, lysosomes, multivesicular bodies and dense bodies are abundant. Glia elements are sparsely distributed. Many nerve fibres contain granules of different size and electron density. Five groups of fibres can be distinguished: Fibres with granules of about 200 nm (type A), fibres with granules of about 160 to 170 nm (type B), fibres with granules of about 80 to 100 nm (type C) and those with synaptic vesicles of 50 nm (type D) respectively. A fifth very small type contains neither vesicles nor granules. Special attention was paid to synaptic contacts. The divergent dyad seems to be the main type in the frontal ganglion. Frequently, neurosecretory endings are observed in presynaptic position. Immunocytochemical staining of neurosecretory material closely corresponds to the distribution of type A fibres, as observed electron microscopically. Immunoelectrophoresis of extracts from frontal ganglia with polyspecific anti-neurosecretion-serum reveals a single precipitation line, indicating that the immunocytochemical localization of neurosecretory material is due to reaction with a specific as well as a crossreagent antibody.Supported by the Ministerium für Wissenschaft und Technik der DDRThe authors wish to thank Mrs. B. Cosack and Mrs. A. Schmidt for excellent technical assistance     

Effects of ouabain and electrical stimulation on the fine structure of nerve endings in the electric organ of Torpedo marmorata

Summary The cycle of synaptic vesicles was studied in isolated nerve terminals and in the electric tissue of Torpedo marmorata. The synaptosomes, as used in this investigation, were a pure cholinergic subcellular fraction that captured dextran particles as an extracellular marker. This endocytotic phenomenon was enhanced by potassium depolarization. Field electrical stimulation (1 Hz and 10 Hz) of the electric organ induced the appearance of membrane foldings into presynaptic terminals. Morphometric studies showed that the number of synaptic vesicles did not decline until after at least 30 min. On the other hand, at 10 Hz these changes were accompanied by an increase in length of the membrane of the terminal. At 15 min of recovery after prolonged stimulation, there was a great increase in density of synaptic vesicles with a large number of vesicles of small diameter. This increase was accompanied by a decrease of membrane length, suggesting that reformation of vesicles is related to retrieval of membrane. Pharmacological stimulation with ouabain produced changes similar to those of long-term electrical stimulation. These changes in membrane were accompanied by a decrease of the population of synaptic vesicles and a wide variation in their diameters. It is concluded that structural changes reported here could not be correlated with kinetics of the transmitter release.We are grateful to Dr. E. Cañadas, Prof. Dr. D. Ribas and Dr. J. Tomás for valuable help and encouragement. We are indebted to Dr. P. Arté and to the staff of the Acuario de Barcelona del Instituto de Investigaciones Pesqueras for providing specimens of Torpedo marmorata. This investigation was supported by a grant Formación Personal Investigador del Ministerio de Universidades e Investigación