Membrane-bound Bodies Research Articles

Programmed cell death: concept, mechanism and control.

Programmed cell death or apoptosis occurs under physiological conditions as a result of physiological effectors. It is a relatively slower process and requires active participation of the cell in the suicidal mechanism. Apoptosis is controlled by precise intrinsic genetic programme and may be induced by almost all those stimuli causing necrosis. The role played by the intensity in determining the death process and the underlying mechanism is imperfectly understood. Morphologically apoptotic cells appear as small condensed body. The chromatin is dense and fragmented, packed into compact membrane-bound bodies together with randomly distributed cell organelles. The plasma membrane loses its characteristic architecture and shows extensive blebbing. It buds off projections so that the whole cell may split into several membrane-bound apoptotic bodies. Significant chemical changes take place in the plasma membrane. This helps in recognition of the apoptotic bodies by phagocytes. At this moment it is unclear if all cells can undergo apoptosis or it is a characteristic of only some tissues which are predisposed to apoptotic death being directly under the control of hormones or growth factors. Experimental studies aimed at comparison of induction of apoptosis in cells of different origin are warranted to elucidate this point. Biochemically a pre-commitment step for induction of death programmation through macromolecular synthesis is essential for most systems. The double-stranded linker DNA between nucleosomes is cleaved at regular inter-nucleosomal sites through the action of a Ca2+, Mg(2+)-sensitive neutral endonuclease. Zinc is a potent inhibitor of the enzyme. Calcium probably plays a key controlling role in activation of the enzyme since prevention of Ca2+ increase prevents endonuclease activation. It is becoming evident that signal transduction through appropriate receptors control the Ca2+ flux in the cells. Most apoptotic cells require synthesis of RNA and proteins. Delay or abrogation of apoptosis by inhibition of macromolecular synthesis is well known. The dying cells show high mRNA levels for several enzymes. Several degradative enzymes become active. Regulatory proteins maintain control over the apoptotic cascade. At the molecular level, search has been initiated for the mammalian equivalents of the cell death (ced) gene. Activation of several specific genes is indicated. Specific expression of cell death-associated gene products (e.g. TRPM-2/SGP-2) has been reported in several unrelated apoptotic cell systems. Sequential induction of c-fos, c-myc and 70 kDa heat shock protein is reported. Studies demonstrate that certain genes must remain in a transcriptionally active demethylated state during programmed cell death. Recent evidences clearly indicate that apoptosis may be positively or negatively modulated by certain genes.(ABSTRACT TRUNCATED AT 400 WORDS)

Possible biogenesis of the membrane-bound bodies of the thick basal laminae of the proximal convoluted tubule cells of the gerbil Meriones crassus.

The ultrastructural findings on the kidney cells of the gerbil Meriones crassus have shown the presence of finger-like projections emerging from the basal part of the epithelial cells of the proximal convoluted tubules into the matrix of the thick basal laminae and that structure like membrane-bound bodies are commonly seen in continuity with these processes. Such findings would give clues for the possible biogenesis of the membrane-bound bodies from the epithelial cells. Such an origin is consistent with the idea that either all or part of the population of membrane-bound bodies is produced by a process of budding off from the basal cell membrane rather than by extension of an intracytoplasmic precursor through the plasma membrane.

Immunocytochemical and ultrastructural studies of eosinophilic granular bodies in astrocytic tumors

Eosinophilic granular bodies (EGBs) are studied immunocytochemically and ultrastructurally in a case of low-grade and a case of high-grade astrocytoma. EGBs are recognized as brightly eosinophilic round bodies of variable size in hematoxylin and eosin-stained sections. Immunocytochemically some EGBs are positive for antibodies raised against alpha B-crystallin, ubiquitin and glial fibrillary acidic protein with the staining patterns for each being different from one another. Ultrastructurally EGBs consist of membrane-bound round body of various diameter ranging from 50 nm to 20 microns. Small EGBs contain electron-dense homogeneous material with occasional myelin figures, while electron-dense homogeneous material or loose granular profiles. Our studies demonstrate (1) ultrastructural variety of EGB; (2) and alpha B-crystallin epitope in EGB; and (3) the presence of EGB in high-grade as well as low-grade astrocytoma.

The Fate of Calcium in The Diet of Rhodnius Prolixus: Storage in Concretion Bodies in the Malpighian Tubules

We have investigated the fate of the large amounts of calcium ingested by Rhodnius prolixus in its meals of blood. 45Ca2+ injected into the haemolymph or fed to fifth-stage Rhodnius reared on rabbits is accumulated at high concentrations in the cells of the upper Malpighian tubules; very little is excreted from the body This 45Ca2+ accumulation goes on continuously for at least 12 days and the rate of uptake is increased several-fold within 3-4 days of a meal. The extent of calcium accumulation in tubule cells is correlated with the presence of intracellular membrane-bound concretion bodies, which are therefore likely sites of calcium deposition. X-ray diffraction showed that the calcium deposits are non-crystalline. Tubules from rabbit-fed fifth-stage Rhodnius contain 410 mmol l-1 calcium; in those from chicken-fed insects the calcium concentration is over 1 mol l-1; and in those fed in vitro on heparinised low-K+ sheep blood the calcium concentration is only 21 mmol l-1. The concentration of calcium in the haemolymph in all these insects was 8 mmol l-1 and its activity determined by an ion-selective electrode was 2.5 mmol l-1. 45Ca2+ deposited in the tubules is readily exchangeable, but the efflux preferentially passes to the haemolymph side of the tubule epithelium. The ability to sequester calcium in the Malpighian tubules may prevent calcium from interfering with reabsorptive processes in the rectum.

Unusual Membrane-Bound Bodies in the Basal Lamina of the Uriniferous Tubules of the Camel <i>Camelus dromedarius</i>

Kidney samples of the camel Camelus dromedarius were aldehyde fixed and glycerol impregnated for ultrathin-section and freeze-fracture studies of the basal lamina. Results obtained show the presence of extracellular membrane-bound bodies within the thick basal lamina of the tubular portion of the nephron. The 10- to 500-nm bodies appear isolated and are found at various levels along the width of a highly structural lattice basal lamina. The bodies are observed either in small groups or as single structures which are invariably surrounded by a clear halo of the basal lamina. In ultrathin sections they appear limited by a typical unit-membrane structure, and their interior may appear empty or may exhibit material of variable electron opacity. Freeze-fracture replicas reveal the limiting membrane of the bodies which appear either as concave or convex structures. Intramembrane particles (IMPs) measuring between 5 and 15 nm are present in some of the bodies, whilst others appear devoid of IMPs. The IMPs are present in both concave and convex surfaces and are usually aggregated into clumps. The region of the basal lamina which contains the membrane-bound bodies is usually granular except in the area immediately surrounding the bodies which corresponds to the clear halo observed in thin sections. Although these basal lamina membrane-bound bodies appear to be similar to matrix vesicles previously described in mineralizing tissues, it seems unlikely that they are involved in calcification. It is possible that the membrane-bound bodies and the highly configurated basal lamina may be related to ionic transport mechanisms which are associated with the high osmolarity of the camel urine.

Release of cytoplasmic apical protrusions from principal cells of the cat epididymis, an electron microscopic study

Epididymides of captive normal adult cats were studied by light and transmission electron microscopy. Release of apical portions of principal cells occured by a process of pinching-off. The membrane-bound bodies (spherules) formed were then found in the epididymal lumen. We postulate that this represents an apocrine secretion process. Such phenomenon were present in all segments of the epididymis, whether caput, corpus, or cauda. Rows of microvesicles similar to those described in other species were also observed between microvilli. The mechanism of formation of spherules and microvesicles seemed to be formed by a different mechanism.

Novel potential mitotic motor protein encoded by the fission yeast cut7+ gene

The structure equivalent to higher eukaryotic centrosomes in fission yeast, the nuclear membrane-bound spindle pole body, is inactive during interphase. On transition from G2 to M phase of the cell cycle, the spindle pole body duplicates; the daughter pole bodies seed microtubules which interdigitate to form a short spindle that elongates to span the nucleus at metaphase. We have identified two loci which, when mutated, block spindle formation. The predicted product of one of these genes, cut7+, contains an amino-terminal domain similar to the kinesin heavy chain head domain, indicating that the cut7+ product could be a spindle motor. The cut7+ gene resembles the Aspergillus nidulans putative spindle motor gene bimC, both in terms of its organization with a homologous amino-terminal head and no obvious heptad repeats and in the morphology of the mutant phenotype. But we find no similarity between the carboxy termini of these genes, suggested that either the cut7+ gene represents a new class of kinesin genes and that fission yeast may in addition contain a bimC homologue, or that the carboxy termini of these mitotic kinesins are not evolutionarily conserved and that the cut7+ gene belongs to a subgroup of bimC-related kinesins.

Morphology and neurophysiology of focal axonal injury experimentally induced in the guinea pig optic nerve

A new model of focal axonal injury was reproduced by rapid and controlled elongation (uniaxial stretch) of the guinea pig optic nerve. Light microscopy study of optic nerve specimens after horseradish peroxidase injection into the vitreous of the animal's eye showed that axonal lesions were identical to those seen in human and primate post-traumatic diffuse axonal injury (DAI). The lesions were characterized by the formation of terminal clubs in severed axons and focal axonal enlargements in those axons that were lesioned-in-continuity. Visual-evoked potentials upon flash stimulation were recorded before and after injury. Mean amplitude and mean latency of occipital peaks were significantly elongated in the acute post-traumatic phase. Electron microscopy examination showed that the main axonal changes observed in this model were cytoskeleton disorganization, accumulation of axoplasm membrane-bound bodies at the site of terminal balls and dilatations-in-continuity and detachment of the axolemma from the myelin sheath. Such axonal alterations were similar to those found in many other biological models of central and peripheral axonal injuries in which the lesion was produced by invasive methods. This model is unique since it reproduces the same mechanism of injury and the identical lesions that have been demonstrated in humans and primates with post-traumatic (DAI).

The ultrastructure of the double membrane-bound bodies and endoplasmic reticulum in serial sections of wheat spot mosaic-affected wheat plants

Wheat spot mosaic disease was first discovered in southern Alberta, Canada, in 1956. A hitherto unidentified disease-causing agent, transmitted by the eriophyid mite, caused chlorosis, stunting and finally severe necrosis resulting in the death of the affected plants. Double membrane-bound bodies (DMBB), 0.1-0.2 μm in diameter were found to be associated with the disease.Young tissues of leaf and root from 4-wk-old infected wheat plants were fixed, dehydrated, and embedded in Spurr’s resin. Serial sections were collected on slot copper grids and stained. The thin sections were then examined with a Hitachi H-7000 TEM at 75 kV. The membrane structure of the DMBBs was studied by numbering them individually and tracing along the sections to see any physical connection with endoplasmic reticulum (ER) membranes. For high resolution scanning EM, a modification of Tanaka’s method was used. The specimens were examined with a Hitachi Model S-570 SEM in its high resolution mode at 20 kV.

Revival of Dobell's "Chromidia" Hypothesis: Chromatin Bodies in the Amoebomastigote Paratetramitus jugosus

Multiple fission of a mature Paratetramitus jugosus (approx. 10 micrometers long) resulted in the production of many small, roughly spherical (2-7 micrometers in diameter) amoebae. Our observation of live material and examination of over two hundred micrographs lead us to suggest that DNA-containing membrane-bounded chromatin bodies bud amitotically from the nucleus. DAPI-stained bodies of these were observed in the cytoplasm of amoebae, mastigotes, and cysts, and at least some of these chromatin bodies seemed to be released into the medium. This interpretation revives for P. jugosus the "chromatin hypothesis" of Dobell. Our data, consistent with the descriptions of Dobell, Hogue, and Wherry, indicate that encysting amoebae may reproduce by chromidia. Dobell's original chromidia concept was limited to amoebae. Others claimed for it far-reaching consequences: "chromidia" were touted as an explanation for embryogenesis and histogenesis of metazoa. Although there is no evidence for chromidia in animals, outright rejection of Dobell's chromidia hypothesis sensu stricto as an amitotic multiple fission process in amoebae is unjustified.

HISTOLOGICAL, IMMUNOHISTOCHEMICAL AND ELECTRON MICROSCOPIC STUDIES ON DEGENERATIVE STRUCTURES (ROSENTHAL FIBERS, ROUNDED GRANULAR CORPUSCLES AND HYALINE INCLUSIONS) IN GLIOMAS

The histology, immunohistochemistry and ultrastructure of three types of intracytoplasmic degenerative structures (Rosenthal fibers, rounded granular corpuscles and hyaline inclusions) were studied in 10 gliomas containing these structures.The elongated hyaline bodies known as Rosenthal fibers were found in three pilocytic astrocytomas. Immunoperoxidase stain for GFAP were generally negative and the bodies were often encompassed peripherally by GFAP-positive rims of the cytoplasm. Electron microscopic examination revealed that these bodies were osmiophilic amorphous masses of irregular shape, closely associated with cytoplasmic filaments of intermediate size. In two other gliomas (pleomorphic astrocytoma and mixed oligo-astrocytoma) cells packed with tiny eosinophilic granules were found within the tumor tissue. By electron microscopy the granules were found to have a structure corresponding to that of Rosenthal fibers. It is considered that degradation of glial filaments may be in some way related to the formation of Rosenthal fibers.Rounded granular corpuscles appeared as round or oval bodies with finely granulated internal structures. The corpuscles were observed in 3 pilocytic astrocytomas and 5 pleomorphic astrocytomas. Immunohistochemically, the corpuscles were generally positive for S-100 protein and their peripheral rims were immunoreactive for GFAP. By electron microscopy the bodies were found to be distended cytoplasms of neoplastic astrocytes packed with numerous membrane-bound dense bodies, vacuoles and membranous profiles. Intracytoplasmic filaments were found pushed towards the periphery of the cytoplasm. Intracytoplasmic hyaline inclusions were found in 5 pleomorphic astrocytomas. These were of a globular or oblong shape and their size varied greatly. By electron microscopy the inclusions appeared as rounded electrondense bodies of varying size within the cytoplasm of neoplastic cells, some of which were membrane-bound. Larger inclusions of oblong shape displayed a complicated internal structure. Because of the fine structural features both the granular corpuscles and hyaline inclusions were considered to be of lysosomal origin.

Tubular lysosomes in ruffle-ended ameloblasts associated with enamel maturation in rat incisor.

Trimetaphosphatase (TMPase) and cytidine-5'-monophosphatase (CMPase) were localized to investigate the lysosomal system, particularly tubular lysosomes, in ruffle-ended ameloblasts associated with maturation of enamel in rat incisor. Demineralized specimens were incubated for TMPase and for CMPase in a modified medium where cerium was used as the capture ion. Ruffle-ended ameloblasts showed distal invaginations and membrane-bound bodies filled with fine granular material, some of which displayed CMPase reaction product. Elongated tubular configurations 80-140 nm wide were distributed throughout the cytoplasm and were reactive with both TMPase and CMPase, thus characterizing these structures as lysosomes. They often contained fine granular material morphologically similar to that present in multivesicular bodies. During late enamel maturation, fewer tubular lysosomes were observed when compared to early maturation. These cytochemical results demonstrate the presence of tubular lysosomes in ruffle-ended ameloblasts, and it is suggested that they are elements of the endosomal system in these cells. These findings are also consistent with a resorptive function for ruffle-ended ameloblasts during enamel maturation.

Cell death by apoptosis during involution of the lactating breast in mice and rats.

The role of cell death in involution of lactating breast was investigated in mice and rats by light and electron microscopy. Apoptosis, recognized by sharply demarcated compaction of chromatin against the nuclear envelope and by shrinkage and budding of the whole cell to form membrane-bounded apoptotic bodies, was responsible for major loss of cells in both species. In the mouse, rapid involution during the first 2 days was associated with shedding of large numbers of apoptotic bodies derived from alveolar epithelial cells into alveolar lumens. This was followed by more gradual regression, during which the bodies were mostly phagocytosed by macrophages within the epithelium. In the rat, glandular involution was a more gradual and uniform process, with shedding of apoptotic epithelial cells into alveolar lumens being much less conspicuous. Apoptosis of myoepithelial cells was observed in mice, the resulting apoptotic bodies being phagocytosed by intraepithelial macrophages, but was not detected in rats. Apoptosis of capillary endothelial cells caused rapid regression of the capillary beds in both mice and rats. Intraepithelial macrophages increased in number during involution, developed cytoplasmic lipofuscin pigment, and either remained within the epithelium or migrated to the interstitium and regional nodes. Cell loss by apoptosis has been demonstrated during involution and atrophy of a variety of other glands. It characteristically results in shrinkage of a tissue without disruption of its basic architecture.

Accumulation of pigment granules in lacrymal gland epithelium in practolol-treated beagle dogs

A 6-month oral toxicity test of practolol was carried out in beagle dogs as a reference control for a newly developed beta blocker. No significant drug-induced changes were detected in any animals by various ophthalmological examinations such as ERG, tear flow, lysozymal activity in tears, etc. However, an unusual pathological change was detected in the lacrymal gland of all five dogs treated with practolol and not in control animals. Macroscopically, the lacrymal glands assumed a blackish brown to deep black colour on both the outside and the cut surface. Microscopically, fine, dark-brown pigment granules were present in the apical and supra-nuclear portion of the cytoplasm of predominantly serosal type epithelial cells. These pigments reacted positively to Schmorl's method for lipofuscin, but gave a negative PAS reaction for polysaccharide, Prussian blue for iron and Ziehl-Neelsen method for ceroid pigment. They were detected as membrane-bound electron-dense bodies by electron microscopy. Similar pigments were also deposited in the cytoplasm of the apocrine sweat gland. Although the mechanism of the accumulation of these granules is far from clear, concentration of practolol in the lacrymal gland is considered to be very closely related to the presence of these granules. A possible mechanism for ocular toxicity by practolol, involving this change, is discussed.

Correlated in situ hybridisation and immunochemical studies of legumin storage protein deposition in pea (Pisum sativum L.)

Legumin and vicilin are the major globulin seed storage proteins of pea. They are synthesised predominantly in the cotyledons where they are sequestered within membrane-bounded vacuolar protein bodies. In situ hybridisation histochemistry, with both biotinylated and 35S-labelled cDNA probes, has been used to visualise the temporal and spatial patterns of distribution of legumin and vicilin mRNAs during seed development. These patterns have been compared with those of storage protein deposition which have been determined by immunocytochemistry. Results indicate that within the cotyledons high levels of legumin and civilin mRNAs are restricted to the storage parenchyma tissues, whilst the epidermal cells and vascular parenchyma do not show such accumulation. The tissues of the embryo axis also show differential levels of expression, although where present the levels of mRNAs appear much lower than in the cotyledons. Throughout the embryo the patterns shown by in situ hybridisation are similar to those shown by immunocytochemistry, although the transient endosperm of early seed development does not show such a correlation.

Ultrastructural features of chloride cells in the gill epithelium of the Atlantic salmon, Salmo salar, and their modifications during smoltification.

To elucidate the ultrastructural modifications of the gill epithelium during smoltification, gills of the Atlantic salmon (Salmo salar) were examined by electron microscopy at three stages of this process, which were defined as follows: "parrs" were freshwater fish that had not yet started their transformation; "freshwater smolts" were freshwater fish that were ready to enter seawater; and "seawater smolts" were smolts that had been transferred from fresh water and maintained for 4 days in seawater (35%). In the gill epithelium of parrs, there were two types of chloride cells. The large chloride cells contained deeply stained mitochondria and numerous apical, irregular, dense, membrane-bound bodies that formed 77% of the chloride cell population and were distinguished easily from small chloride cells that have distinctly paler mitochondria and no dense bodies in their apical cytoplasm. In freshwater smolts, the large chloride cells formed 95% of the chloride-cell population. In contrast to the small chloride cells that were not modified, they almost doubled in size. Their tubular system developed extensively to form a tight network with regular meshes significantly smaller than those observed in parr chloride cells. Forty percent of the large chloride cells were associated with a new type of cell, the accessory cell, to which they were bound by shallow apical junctions. Half of these accessory cells were not seen to be in contact with the external medium. In seawater smolts, 80% of the large chloride cells were associated with accessory cells. Most accessory cells reached the external medium and sent numerous cytoplasmic interdigitations within the apical portion of the adjacent chloride cells. As a result, a section through the apical portion of the chloride cells and their associated accessory cells revealed a mosaic of interlocked cell processes bound together by an extended, shallow apical junction. It was concluded that the Atlantic salmon develops in fresh water most of the ultrastructural modifications of the gill epithelium which in most euryhaline fish are triggered by exposure to seawater. The effective transfer into seawater would act only as a final stimulus to achieve some adequacy between the freshwater smolt and its new environment.

Role of epithelial clear cells of the rat epididymis in the disposal of the contents of cytoplasmic droplets detached from spermatozoa.

Upon release from the seminiferous epithelium, spermatoza show a small droplet of cytoplasm attached to the neck region. During transit of spermatozoa in the caput epididymidis, this cytoplasmic droplet migrates along the middle piece of the flagellum. In the corpus epididymidis, the droplet shows a lateral displacement, while in the cauda epididymidis it detaches from the spermatozoon. In the electron microscope, cytoplasmic droplets attached to spermatozoa were seen to contain numerous, short, straight or C-shaped, flattened membranous elements referred to as lamellae, small vesicles, and small particles (35-nm diameter) with a diffuse wall showing no apparent unit membrane. The lamellae were stacked closely on one another or arranged in a loose array. Structurally as well as cytochemically, with different cytochemical markers, the lamellae and vesicular elements failed to show any evidence of being components of the Golgi apparatus or elements of the endoplasmic reticulum. The lamellae, vesicular elements, and 35-nm particles were also seen free in the lumen of the corpus epididymidis but were especially prominent in the cauda epididymidis at a time when droplets were being released from spermatozoa. The lumen of the epididymis, as spermatozoa passed from the caput to the cauda epididymidis, was also noted to acquire progressively a flocculent background material. The epididymal epithelium is composed predominantly of principal and clear cells. The endocytic activity of clear cells was examined in rats at different time intervals after a single injection of cationic ferritin into the lumen of the cauda epididymidis. At 2 min the tracer was bound to the microvilli of these cells and was also observed within large coated and uncoated pits, subsurface coated vesicles, and numerous subsurface small uncoated vesicular membranous elements (150-200-nm diameter). At 5 min, in addition to the above structures, the tracer was present in endosomes, while at 15 and 30 min, pale and dense multivesicular bodies appeared labeled, respectively. At 1 and 2 hr, but more so at 6 hr large dense membrane-bound bodies identified cytochemically as secondary lysosomes became labeled. All of the above endocytic structures were also seen to contain the 35-nm particles, flattened or vesicular membranous profiles, and a fine flocculent background material reminiscent of those seen free in the lumen or found in cytoplasmic droplets attached to spermatozoa. (ABSTRACT TRUNCATED AT 400 WORDS)

Immunocytochemical localization of heparan sulfate proteoglycan in human decidual cell secretory bodies and placental fibrinoid.

A distinct ultrastructural feature of human decidual cells is the presence of membrane-bound secretory bodies, 0.3-0.5 micron in diameter, located within club-shaped processes at the cell periphery. These secretory bodies contain 30-60 nm electron-dense granules. Using specific antibody and the protein A-gold technique, we examined the localization of heparan sulfate proteoglycan in human decidual cells. Morphometric analysis of gold particles in cellular compartments was performed with a Zeiss Videoplan computer system. Immuno-gold staining was present in the decidual cell cytoplasm and the extracellular space, especially in the zone of the external lamina. Gold particles, indicating the locale of heparan sulfate proteoglycan, were concentrated over the electron-dense granular material within decidual secretory bodies contained in club-shaped processes at the cell periphery. Immunolabeling of placental fibrinoid was also observed. This report provides the first identification of a specific molecular constituent of decidual secretory bodies and indicates a role for these structures in secretion of the peri-decidual cell extracellular matrix.

Division of Palmoclathrus stipitatus (Chlorophyta) vegetative cells

Abstract Division of vegetative cells in the morphologically complex palmelloid marine green alga Palmoclathrus stipitatus Womersley, as observed at the light microscope level, involves the division of a uninucleate parent cell into two progeny cells that are initially asymmetrical. This ‘asymmetric binary eleutheroschisis’ occurs primarily in the superficiallayer of thalli partially regenerated from cultured stipe segments. The asymmetry is associated with the segregation of a prominent membrane-bound body into only one of the two progeny. The parental cell wall is discarded and, apparently, eventually incorporated into the colonial matrix. This cell division pattern suggests that Palmoclathrus and the related Palmophyllum are bona fide marine representatives of the predominantly freshwater class Chlorophyceae sensu Mattox & Stewart, and are referrable to the order Chlorococcales; other possibilities, however, cannot be excluded.

The human bulbo-urethral glands. A transmission electron microscopy and scanning electron microscopy study.

This paper investigates the ultrastructure of human bulbo-urethral glands using specimens obtained at surgery. The tubulo-alveolar endpieces of these glands are lined by typical mucous cells in different stages of the secretory cycle. The most interesting features of their cytoplasm are membrane-bounded bodies with a filamentous texture that usually fuse with the mucous droplets before they discharge into the lumen. Cells with apical dark granules are sometimes encountered in the ductal portions of the gland, which are probably ductal cells endowed with a scanty synthetic and secretory activity. Myoepithelial cells are not very numerous and are observed around mucous cells only.