The prolactin cell of the white-crowned sparrow,Zonotrichia leucophrys pugetensis

Summary The anterior pituitaries from a series of female White-crowned Sparrows,Zonotrichia leucophrys pugetensis, in the periods of oviposition, incubation, and brooding under natural conditions, have been investigated by electron microscopy. The prolactin cells occur in cephalic lobe and are characterized by large (ca. 300–600 m), polymorphic electron-dense secretory granules and an extremely well developed, lamellated endoplasmic reticulum. During incubation and brooding it is only these prolactin cells that are in an activated secretory phase, as indicated by increase in number and size, extremely well developed endoplasmic reticulum, decrease in number of mature secretory granules, and by active formation of granules in the enlarged Golgi apparatus. In the late stages of brooding, and post-breeding, the prolactin cells regress with involution of the endoplasmic reticulum and Golgi apparatus, reaccumulation of granules, and the appearance of lysosomes.The gonadotropes of both the cephalic and caudal lobes undergo progressive morphologic changes through the course of the breeding period. They are numerous and active in the ovulating bird. They undergo gradual regression during the periods of incubation and brooding to become typical broody cells.This investigation was supported by Grant No. GF-33334, U.S.-Japan Cooperative Science Program of the National Science Foundation and by Grant No. GB-28080X, also from the National Science Foundation, to Professor Farner; and by Grant No. 5R040 Japan-U.S. Cooperative Science Program of Japan Association of Science Promotion, to Professor Mikami.     

Light- and electron-microscopic studies on the secretory cytology of the adenohypophysis of the Japanese quail,Coturnix coturnix japonica

The effects of thyroidectomy, adrenalectomy, and castration on the pars distalis of male Japanese quail, and of injection of LH-RH on sexually inactive females, were investigated by light and electron microscopy. Correlation between light and electron microscopy was attained by use of alternate thin and thick sections. Six types of secretory cells were identified and the ultrastructural characteristics described. Putative endocrine functions have been designated on the basis of responses to experimental interventions and on other criteria. The putative STH cells are characterized by the presence of large dense secretory granules (250-300 nm) that are stained with orange-G by the trichrome method. They occur only in the caudal lobe and appear to be unchanged by castration, thyroidectomy, adrenalectomy and LH-RH injection. The putative prolactin cells are characterized by large (400-600 nm), spherical or polmorphic, dense secretory granules stainable with acid fuchsin and aniline blue; prominent Golgi apparatus and well developed endoplasmic reticulum with densely packed, regularly parallel lamellae. They are found mainly in the cephalic lobe. The prolactin cells develop some vacuolization after adrenalectomy and undergo some degeneration after castration. The ACTH cells, which are restricted to the cephalic lobe, are identified by the dense, spherical granules (250-300 nm) that are stained with acid fuchsin. After adrenalectomy, they lose their secretory granules and are transformed into large, chromophobic adrenalectomy cells. TSH cells are so designated by their response to thyroidectomy including loss of their fine secretory granules and transformation to large, vacuolated thyroidectomy cells. We have found TSH cells and thyroidectomy cells only in the cephalic lobe. Basophilic cells, considered to be gonadotropes, occur in both the cephalic and caudal lobes. The gonadotropes of the cephalic lobe appear to have slightly larger (120-200 nm) granules than the caudal lobe (120-150 nm). However, after castration, the gonadotropes in both lobes become hypertrophied and vacuolated and are transformed into mutually indistinguishable castration cells. Twenty minutes after injection with LH-RH, the gonadotropes of both lobes increase in size and number, degranulate, develop vacuoles in the cytoplasm, and appear very similar to castration cells.     

The relationship between the folliculo-stellate network and the thyrotropic cells of the avian adenohypophysis

Summary The folliculo-stellate network of the avian adenohypophysis consists of stellate cells surrounding colloid-containing follicular cavities into which cilia and microvilli project. Other identifying criteria are agranularity, junctional complexes at the apical pole, presence of cytoplasmic processes ramifying between adjacent secretory cells, and close appositions of plasma membranes linking folliculo-stellate cells and presumptive thyrotropic cells.Transmission electron microscopy reveals that TRH and L-DOPA induce simultaneous ultrastructural changes in the folliculo-stellate network and in the thyrotropic cells. TRH transforms at cell of the cephalic lobe into a highly hypertrophic cell in which enlargement of cisterns of rough endoplasmic reticulum containing secretory granules, development of a large Golgi complex, presence of newly synthesized secretory granules, and granulation of the cytoplasm are the main features. In the meantime, the follicular cavities become dilated by large amounts of homogeneous colloid. The administration of L-DOPA also leads to the development of dilated cisterns in presumptive thyrotropic cells of the cephalic lobe. Intracisternal granules, immature secretory granules, and large Golgi complexes, however, are not observed. Degranulation of the cytoplasm is obvious. The follicular cavities of both cephalic and caudal lobes are enlarged and filled with colloid in which granular elements are noted.The ultrastructural changes observed in thyrotropic cells and in the folliculo-stellate network reflect functional changes induced by the experimental manipulation. These changes may be related, directly or indirectly, or completely independent.     

Cell types in the adenohypophysis of the Japanese quail and effects of injection of luteinizing hormone-releasing hormone

The cells of the adenohypophysis of the Japanese quail were studied by both light and electron microscopy after exposure to long photoperiods or injection of lutenizing hormone-releasing hormone (LRH). Six cell types were identified in the adenohypophysis by examining alternate thick and thin sections by light and electron microscopy. In the cephalic lobe, there are four types of glandular cells. They are the prolactin cells, ACTH cells, TSH cells, and gonadotropic cells (FSH?). In the caudal lobe, there are two types of cells, STH cells and gonadotropic cells (LH?). After exposure to long daily photoperiods, gonadotropic cells in both lobes were strongly activated. They became larger and accumulated many granules. ACTH cells became vacuolated; granules were sparse. Synthetic LRH injection (10 mug/0.2 ml/day) for 10 days to the non-photostimulated quail stimulated certain numbers of the gonadotropic cells in the both lobes, although the response of the cells was less than that induced by photostimulation. No response was seen in the other cell types.     

The fine structure of the hypothalamic secretory neurons of the White-crowned Sparrow,Zonotrichia leucophrys gambelii (Passeriformes: Fringillidae)

Summary The fine structures of the neurons and neuropils of the magnocellular supraoptic nucleus and the parvocellular nuclei of the rostral hypothalamus, including the suprachiasmatic and medial, lateral and periventricular preoptic nuclei, and the neuronal apparatus of the organum vasculosum laminae terminalis, have been examined in the male White-crowned Sparrow, Zonotrichia leucophrys gambelii, by correlated light and electron microscopy.The magnocellular supraoptic nucleus is characterized by large neurosecretory perikarya which contain a well developed Golgi complex and densecored granules 1,500–2,200 Å in diameter. The neuropil displays axons, dendrites and glial fibers. Some axonal profiles contain dense-cored vesicles 800–1,000 Å in diameter and clear vesicles 500 Å in diameter. Axo-somatic and axo-dendritic synapses are conspicuous in this nuclear region.The suprachiasmatic nucleus is characterized by an accumulation of small neurons with moderately developed cellular organelles and some dense-cored granules, approximately 1,000 Å in diameter. The profiles of axons within the neuropil contain dense-cored granules 800–1,000 Å in diameter and clear vesicles 500 Å in diameter.The neurons of the medial preoptic nucleus are relatively large and exhibit well developed cellular organelles and dense-cored granules 1,300 to 1,500 Å in diameter. Granular materials are formed within the Golgi complex. The medial preoptic nucleus is rich in secretory perikarya.Occasionally, neurons with granules 1,500–2,200 Å in diameter are encountered in the lateral preoptic and periventricular preoptic nuclei. They may be considered as scattered elements of the magnocellular (supraoptic and paraventricular) system.The organum vasculosum laminae terminalis consists of three layers, i.e., ependymal, internal and external zones, and exhibits a vascular arrangement similar to that of the median eminence. The perikarya of the parvocellular neurons and their axons in the internal zone contain numerous secretory granules ranging from 1,300 to 1,500 Å in diameter.This investigation was supported by Grant No. 5R040 Japan-U.S. Cooperative Science Program of the Japan Society for the Promotion of Science to Professor H. Kobayashi and Professor S.-I. Mikami, by a Scientific Research Grant No. 56019 from the Ministry of Education of Japan to S.-I. Mikami, by support from the Deutsche Forschungsgemeinschaft (Schwerpunktprogramm Biologie der Zeitmessung) to Prof. A. Oksche and by Grant No. GF 33334, U.S.-Japan Cooperative Science Program of the National Science Foundation to Prof. D.S. Farner.Herrn Professor Dr. Dres h.c. Wolfgang Bargmann zu seinem 70. Geburtstag am 27. Januar 1976 gewidmet.     

Lectin-labeled membrane is transferred to the Golgi complex in mouse pituitary cells in vivo

Labeling of the Golgi complex with the lectin conjugate wheat germ agglutinin-horseradish peroxidase (WGA-HRP), which binds to cell surface membrane and enters cells by adsorptive endocytosis, was analyzed in secretory cells of the anterior, intermediate, and posterior lobes of mouse pituitary gland in vivo. WGA-HRP was administered intravenously or by ventriculo-cisternal perfusion to control and salt-stressed mice; post-injection survival times were 30 min-24 hr. Peroxidase reaction product was identified within the extracellular clefts of anterior and posterior pituitary lobes through 24 hr but was absent in intermediate lobe. Endocytic vesicles, spherical endosomes, tubules, dense and multivesicular bodies, the trans-most saccule of the Golgi complex, and dense-core secretory granules attached or unattached to the trans Golgi saccule were peroxidase-positive in the different types of anterior pituitary cells and in perikarya of supraoptico-neurohypophyseal neurons; endoplasmic reticulum and the cis and intermediate Golgi saccules in the same cell types were consistently devoid of peroxidase reaction product. Dense-core secretory granules derived from cis and intermediate Golgi saccules in salt-stressed supraoptic perikarya likewise failed to exhibit peroxidase reaction product. The results suggest that in secretory cells of anterior and posterior pituitary lobes, WGA-HRP, initially internalized with cell surface membrane, is eventually conveyed to the trans-most Golgi saccule, in which the lectin conjugate and associated membrane are packaged in dense-core secretory granules for export and potential exocytosis of the tracer. Endoplasmic reticulum and the cis and intermediate Golgi saccules appear not to be involved in the endocytic/exocytic pathways of pituitary cells exposed to WGA-HRP.     

Investigations of the butylcholinesterase-containing cells of the adenohypophysis of the white-crowned sparrow,Zonotrichia leucophrys gambelii

Summary In the adenohypophysis of Zonotrichia leucophrys gambelii two types of cells with butylcholinesterase(BuChE) activity can be demonstrated histochemically. Type I occurs in the cephalic lobe of the pars distalis and in the pars tuberalis; it consists of oval and round cells. It is a distinctive cell type that is identical with the amphophilic cells described by Matsuo, Vitums, King and Farner (1969). Whereas castration or inhibition of thyroid gland activity causes only minor changes in these cells, blocking of adrenal cortex activity, or adrenalectomy, causes conspicuous hyperplasia and hypertrophy suggesting that these cells are involved in the production or release of ACTH. The second type, which occurs in both cephalic and caudal lobes, consists mostly of irregularly formed cells. Various observations indicate that it is a composite group, consisting, at least in part, of degenerating cells.These investigations were supported by grants from the National Institutes of Health (S ROI NB 06812) and the National Science Foundation (GB 5969) to Professor Farner.     

Electron microscopic studies on the adenohypophysis of the White-Crowned sparrow,Zonotrichia leucophrys gambelii

Summary The pars distalis of the adenohypophysis of normal (78), thyroideotomized (6), adrenalectomized (6), and castrated (14) White-crowned Sparrows were observed with the electron microscope. Six types of glandular cells were identified and the ultrastructural characteristics of each have been described. To each has been assigned tentatively an endocrine function.STH cells are characterized by the presence of large, dense secretory granules ranging from 220–280 m, a poorly developed endoplasmic reticulum, and a fragmented Golgi apparatus; they occur only in the caudal lobe. They show no remarkable changes after adrenalectomy, castration, and thyroidectomy.Prolactin cells, whose identity is suggested by their responses to photostimulation and surgical experiments, are characterized by large, polymorphic, dense secretory granules; they have been found mainly in the cephalic lobe.ACTH cells, whose function is confirmed by their cytological responses to adrenalectomy, have a peculiar type of secretory granule (220 m) with high and low phases of electron density. They occur exclusively in the cephalic lobe and are transformed, after adrenalectomy to large, vacuolated adrenalectomy cells.TSH cells are so designated by their response to thyroidectomy. After thyroidectomy, they lose their specific fine secretory granules and are transformed into large, vacuolated thyroidectomy cells. We have found TSH cells and thyroidectomy cells only in the cephalic lobe.Two types considered to be gonadotropic cells from their responses to gonadectomy, occur in both the cephalic and caudal lobes. One of them contains spherical, dense secretory granules (180–220 m), prominent rough endoplasmic reticulum and a well developed Golgi apparatus; the other type contains dense secretory granules of variable size (150–350 m), a less extensively developed Golgi apparatus, and sac-like endoplasmic reticulum. Both types of gonadotropic cells show extreme enlargement and vacuolization after castration. However, they retain differences in appearance in the structure of cytoplasmic organelles and vacuolization.Dedicated to Professor Dr. H. Grau in honor of his 70th birthday.The investigation reported herein was supported by a research grant (HE 07240 NEUA) from the National Institutes of Health to Professor Vitums, by a research grant (5R01 NB 06187) from the National Institutes of Health to Professor Farner, and by a scientific research grant (No. 91049) from the Ministry of Education of Japan to Professor Mikami. The authors wish to thank Professor James R. King for his assistance in obtaining and maintaining the birds, and for his helpful advice concerning the experiments.     

Immunohistochemistry of the hypothalamic neuropeptides and anterior pituitary cells in the Japanese quail

The pars distalis of the avian adenohypophysis consists of well-defined cephalic and caudal lobes which are distinct in their cellular constituents. Immunocytochemical investigations on the pituitary hormones of the pars distalis of the Japanese quail reveal five types of secretory cells, adenocorticotropin (ACTH) cells, prolactin (PRL) cells, thyroid-stimulating hormone (TSH) cells, growth hormone GH (STH) cells, and FSH/LH (gonadotropic) cells. The ACTH cells, TSH cells, and PRL cells are restricted to the cephalic lobe, and GH (STH) cells are confined to the caudal lobe, while FSH/LH cells are distributed throughout the cephalic and caudal lobes. The median eminence of birds has distinct anterior and posterior divisions, each with different neuronal components. The avian hypophysial portal vessels also consists of two groups, anterior and posterior. The peculiar arrangement and distribution of the avian hypophysial portal vessels are possibly related to the distribution of neuropeptides in the two divisions of the median eminence and to the cytological and functional differentiation of two lobes of the pars distalis. The localization of perikarya and fibers containing luteinizing hormone releasing hormone (LHRH), somatostatin, vasotocin, mesotocin, corticotropin-releasing factor (CRF), vasoactive intestinal polypeptide (VIP), glucagon, metenkephalin, and substance P in the hypothalamus and median eminence of the Japanese quail has been investigated by means of immunohistochemistry using antisera against the respective neuropeptides. LHRH-, somatostatin-, VIP-, met-enkephalin-, and substance P-immunoreactive fibers are localized in the external layer of the anterior and posterior divisions of the median eminence, while CRF- and vasotocin-reactive fibers are demonstrated only in the external layer of the anterior division of the median eminence. The metenkephalin fibers are thicker in the anterior median eminence but the substance P fibers are more abundant in the posterior division. Mesotocin fibers occur only in the internal layer of the median eminence and neural lobe.     

Light-microscope studies of the cytology of the adenohypophysis of the white-crowned sparrow,Zonotrichia leucophrys gambelii

Summary Adenohypophyses from more than two hundred white-crowned sparrows of both sexes and different ages, and from different periods of their annual reproductive cycle, have been used for this investigation. In addition to examination of these normal birds, we have also studied the adenohypophyses of 23 castrates and 24 controls held in different photoperiodic conditions.Cytologically the pars distalis of the adenohypophysis of the white-crowned sparrow is typically avian with distinct cephalic and caudal lobes, each with characteristic cell-types.Four basic cell-types, the acidophils, basophils, amphophils, and chromophobes, have been identified in the pars distalis by means of Matsuo tetrachrome and Matsuo modified PAS-methyl blue staining methods.Three types of acidophils, orange, red, and small, are confined to the caudal lobe of the pars distalis. Their possible functions are discussed.Light basophils (PAS-light red cells) and deep basophils (PAS-deep red cells) are equally distributed in both lobes. It is suggested that basophils may be involved in gonadotropic function since their appearance correlates well with the annual gonadal cycle and photoperiodic stimulation of gonadal growth and with the results of castration.The amphophils or PAS-purple cells (aldehyde-fuchsin positive) are found only in the cephalic lobe. Their probable function is discussed.Two types of chromophobes, specific and ordinary chromophobes, have been observed. The specific chromophobes are found only in the cephalic lobe and are similar to the Kernhaufen described by Romeis (1940). The ordinary chromophobes are similar to those of the pars distalis of other avian species and of mammals.The castration cells are found in both lobes of the photosensitive castrates under natural photoperiodic conditions as well as in those subjected artificially to photostimulation (20-hour daily photoperiods). Similar cells have also been observed in the pars tuberalis of the castrated photostimulated birds.The relations of the rostral and caudal groups of the portal vessels to the cell-types found in the cephalic and caudal lobes are discussed.Dedicated to Professor Dr. Y. Kato, Department of Anatomy of the Domestic Animals, Kyushu University, Fukuoka, Japan, and to President Dr. H. Mimura, Shinshu University, Matsumoto, Japan, in honor of their retirement.The investigation reported herein was supported by a research grant (5RO 1-HEO7240 NEUA) from the National Institutes of Health to Professor Vitums, by funds for biological and medical research made available by State of Washington Initiative Measure No. 171 to Professor Vitums; by a Research Career Development Award (5K3 AM-18, 370) from the National Institutes of Arthritis and Metabolic Diseases to Professor King; and by a research grant (5RO 1 NB 06 187) from the National Institutes of Health to Professor Farner. The senior author is greatful to Professor Dr. Hideo Murai and Doctor Yasukuni Watanabe, Department of Animal Science, Shinshu University,Ina,Japan, for their cooperation and support in this investigation. We wish to thank Mrs. Sumiko Sumida for technical assistance, and Miss Kathleen Reinhardt for the preparation of the drawings.     

Tissue-specific antigen of chick adenohypophysis appearing at early stages of histotypic differentiation]

The tissue-specific water-soluble antigen characterized by alpha1-globulin electrophoretic mobility was revealed in chick adenohypophysis. The antigen was shown to appear in embryogenesis at early stages of histotypical differentiation of the adenohypophysis by indirect immunofluorescence. The first cells with specific fluorescence were found simultaneously in the cephalic and caudal lobes of 6-day embryo adenohypophysis. The bright patterned fluorescence was observed in all cellular cords of the adenohypophysis by the 8--10th day of the development. This antigen may be used as a common marker for pituitary cell differentiation.     

Electron Microscopic Evidence Suggesting Secretory Granule Formation within the Golgi Apparatus

Secretory granules have been seen within components of the Golgi bodies of rat pituitary acidophils and mouse pancreatic acinar cells. The fact that secretory granules are much more frequently encountered within Golgi components under conditions of increased secretory activity suggests that granule formation may occur within the Golgi apparatus in these two types of cells.     

Ontogenetic Development of the Caudal Neurosecretory System in the Chum Salmon, Oncorhynchus keta, with Regard to Its Ultrastructural Changes and with Relation to Neuropeptide Y-immunoreactive Fibers

The ontogeny of the caudal neurosecretory cells (Dahlgren cells) in the caudal spinal cord of the chum salmon, Oncorhynchus keta, was examined by conventional electron microscopy and with immunohistochemistry for urotensins (U) and neuropeptide Y (NPY). The precursors of the Dahlgren cells first appeared as agranular ovoid cells in the caudal region of the neural tube of 40-day-old embryos about one week before hatching. The occurrence of cytoplasmic granules in the immature Dahlgren cells became evident by the 14th day after hatching. At this moment, the U-positive reaction was merely demonstrated in some of the granules. Close association of NPY-positive fibers with the caudal neurosecretory structures was recognizable in 1-month-old larvae. Thus, it is apparent that the salmon Dahlgren cells start their secretory activity (production of the secretory granules) in early larval stages and that, thereafter, NPYergic afferent innervation of the caudal neurosecretory system becomes evident.     

Acinar ultrastructure of the submandibular gland of Mus musculus during embryonic development

Summary The development of the submandibular gland of the mouse was studied by means of electron microscopy, from the 14th day of gestation up to birth. In the first two days the acini are solid and their cells contain polyribosomes and a few lamellae of endoplasmic reticulum. Beginning with the 16th day secretory granules appear and rapidly fill an increasing number of cells. The different electron density of the granules makes it possible to distinguish 1. two types of granules, dense and pale, and sometimes intermediate ones, 2. polymorphic granules. The latter consists of electron dense and electron pale parts combined in different configurations. The possible significance of the various types of granules is discussed.     

Studies on intracellular transport of secretory proteins in the rat exocrine pancreas

Summary Prolonged secretory stimulation of the exocrine pancreas in the rat by in vivo infusion of caerulein leads to a rapid degranulation of the organ associated with a progressive reduction in the size of the zymogen granules. During the first six to twelve hours of stimulation Golgi complexes are enlarged and several structural forms of multivesicular bodies are found indicating a lysosomal degradation of membrane material in the Golgi area. Maximum secretory activity is obtained after a 24 hour infusion, Golgi complexes appear fragmented, the secretory granules measure only 1/3 to 1/4 their normal size. Thereafter, in spite of a continuous stimulation, the exocrine cells regranulate progressively up to 72 hours of infusion. This regranulation is associated with massive enlargement of the Golgi complexes.The phasic adaptation of the exocrine pancreas to prolonged stimulation, concluded from the structural studies, was confirmed by biochemical analysis of protein synthesis, intracellular transport and enzyme discharge. Pancreatic protein synthesis as measured by the incorporation of tritiated leucine remained unchanged during the first six hours of stimulation, then increased reaching a maximum of 230% of the control levels after 24 hours of infusion. After 48 and 72 hours the rate of protein synthesis decreased again to normal values. Most pronounced changes were observed in the kinetics of intracellular transport of newly synthesized proteins. Using pulse-chase incubation of prestimulated pancreatic lobules, the rate of transition of secretory proteins through the cell increased consistently with prolonged infusion periods reaching maximal acceleration after 24 hours. Newly synthesized proteins were transported and segregated up to ten times faster than in controls. After a maximum at 24 hours transport returned to normal rates after 72 hours of infusion. Enzyme secretion, measured for amylase, followed a similar pattern of stimulation.The results suggest a phasic adaptation of the exocrine pancreatic cell to prolonged stimulation. They demonstrate for the first time the possibility of an acceleration of intracellular transport by means of secretagogues.Dedicated to Professor W. Bargmann on the occasion of his 70th birthday.Supported by a grant from Deutsche Forschungsgemeinschaft (Ke 113/8). A preliminary communication was presented at the 9th annual meeting of the European Society for Clinical Investigation, Rotterdam (April 24–26, 1975). The expert technical assistance of Miss Helga Hollerbach and Miss Hiltraud Hosser is gratefully acknowledged.     

Histochemistry of mucosubstances in the gallbladder epithelium of the chick embryo

Summary Mucosubstances of epithelial cells of the chick embryo gallbladder were investigated by histochemical methods from days 12–21 of incubation (stages 38–46). On incubation day 14, only neutral mucins were detected; on day 15, neutral and sulfated mucosubstances were observed in the epithelial cells that invaginate the underlying mesenchyme. In the same sites, at day 16 of incubation, neutral, carboxylated and sulfated mucins were seen. From the 17th day of incubation until hatching, neutral, carboxylated and sulfated mucosubstances were present in the surface cells and in the cells lining the epithelial invaginations. During this period, the chemical characteristics of the secretory material are similar to those observed by Yamada and Hoshino (1972) in the fowl.Dedicated to Professor Dr. T.H. Schiebler on the occasion of his 65th birthday     

The formation of glandular secretion in larval Austramphilina elongata (Amphilinidea)

The ultrastructure of three types of gland cells of embryos and free-swimming larvae of Austramphilina elongata is described. Type I gland cells contain large, more or less round electron-dense granules which are formed by numerous Golgi complexes. Type II gland cells contain thread-like, membrane-bound secretory granules with longitudinally arranged microtubules inside the granules; secretory droplets are produced by Golgi complexes and the microtubules apparently condense in the cytoplasm or in the droplets. Type III gland cells contain irregular-ovoid membrane-bound granules with coiled up microtubules which have an electron-dense core; the granules are formed by secretionderived from Golgi complexes and the microtubules aggregate around and migrate into the secretion; microtubules are at first hollow and the early secretory granules have a central electron-dense region.     

An ultrastructural study of the clitellar epithelium of the earthworm Metaphire posthuma (vail.)

The ultrastructure of clitellar epithelium of Metuphire posthuma revealed mainly three types of secretory cells. Most prominent among these are the large slender granular cells which contain a large number of secretory granules filling in the entire columncr region of the cell. The secretory granules are 2-4mu in diameter with a limiting membrane and containing numerous tiny vesicles in a matrix of varying electron density. Basolateral rough endoplasmic reticulum and extensive Golgi cisternae were seen interspersed with the secretory granules. The Golgi cisternae in these cells were quite prominent extending all around the secretory granules. The secretory granules of type 2 cells are spheroid bodies with motley appearance due to varying electron density of the matrix. The immature granules contain fibrillar material. Type 3 cells contained electron lucent membrane-bound mucous like secretory granules which are reticulated with filamentous materials. All the three cell types open to the exterior at the cuticular region which is characterised by the presence of numerous microvilli.     

Fine structure of the ventral and dorsal lobes of the prostate in the young adult Syrian hamster, Mesocricetus auratus

The normal ventral and dorsal prostatic lobes of the young adult Syrian hamster were examined at the light and electron microscopic levels. Each lobe is composed of branched tubular secretory units separated from each other by loose interacinar connective tissue and draining into the urethra. The lumen of each acinus is lined by a simple epithelium composed of columnar secretory cells with occasional small basal cells. The epithelial layer, with the thin underlying lamina propria, forms a mucosa that is often highly folded. The whole acinus is bounded by a thick muscular stroma. In each of the ventral lobes, there are three main ducts, each one formed of tubular branched tributary secretory units. The walls of the secretory acini are moderately folded. Microvilli dominate the lumenal surface of the secretory epithelial cells. The Golgi complex is very extensive and shows dilated cisternae and secretory vesicles and vacuoles of various sizes. Membrane-bounded secretory granules populate the Golgi and apical areas and are released into the acinar lumen by exocytosis. The rough endoplasmic reticulum is dispersed throughout the cytoplasm, except in the region of the Golgi apparatus. In each of the dorsal lobes, there are several main tubular ducts that open into the urethra. Both proximal (ductal) and distal portions of the glandular tree are secretory in nature. Microvilli and cytoplasmic bulges and blebs dominate the lumenal surface of the secretory cells. The cells are also characterized by highly dilated cisternae of rough endoplasmic reticulum. The secretory cells show heterogeneity in the degree of dilation and distribution of rough endoplasmic reticulum, and this heterogeneity may reflect location in the glandular tree.(ABSTRACT TRUNCATED AT 250 WORDS)     

The role of the Golgi complex in the formation of secretion in the test cells of the follicle of the tunicate,Ciona

Summary Electron microscope studies were made on the test cells which comprise a part of the follicular envelope in the ovary of the tunicate Ciona. During development the cells become filled with secretory granules. The Golgi complex is well developed and usually centrally located in the cells. The morphological variations shown and described strongly suggest that the Golgi complex is mainly concerned with the origin of the secretion in these cells.Supported by research grants (GM-9229, 9230) from the National Institute of General Medical Science, United States Public Health Service.This investigation was supported by a Public Health Service Research Career Program Award (1-K3-GM-11, 524) from the National Institute of General Medical Sciences.