The Golgi apparatus and lysosomes of rat pancreatic acinar cells following refeeding

Summary The short term effects of refeeding on the Golgi apparatus and lysosomes of the rat exocrine pancreas were evaluated by ultrastructural, morphometric and cytochemical methods. Ten minutes after refeeding, there was a significant enlargement of Golgi cisternae and a significant increase, compared with the controls, in the number of condensing vacuoles and lysosomes. These modifications were accompanied by the appearance of acid phosphatase activity in stacked Golgi cisternae (as well as GERL) of some cells. One hour after refeeding, there were about the same numbers of condensing vacuoles and lysosomes as in the control; Golgi cisternae were still significantly enlarged, compared with the controls, but they were no longer reactive for acid phosphatase. In both fasting and refed animals, acid phosphatase activity was demonstrable in tubular lysosomes.The data are interpreted in terms both of membrane disposal and recycling, leading to enhanced formation of zymogen granules, during physiologically stimulated secretion.     

Lysosomal non-lipid component of Gaucher's cells.

An ultrastructural, histochemical and chemical analysis of storage elements in the infantile form of Gaucher's disease showed that in addition to cerebroside the lysosomes also included a non-lipid component of protein, or possibly glycoprotein nature. This component, easily removable with trypsin, was present in such quantities that it conditioned the typical solid and fibrillar appearance of storage elements even after they had been substantially delipidized. Another noteworthy finding was that the ultrastructural appearance of tubular structures generally regarded as stored cerebrosides persisted in all the extracted specimens without any noticeable change. The findings are compared with available data from the literature and their significance briefly discussed.     

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.     

Phagocytosis of cytoplasmic blebs derived from smooth muscle cells by fibroblast-like cells and macrophages in the post-partum rat uterus

Numerous blebs were observed in contact with smooth muscle cells (SMC) by light microscopy in the myometrium of the rat uterus after parturition. Electron-microscopically the cell surface of SMC showed bulbous protrusions, which often lacked a basement membrane and were less electron-dense than the surrounding cytoplasm or sometimes nearly electron-lucent. Many bulbous protrusions were separated from SMC and became the isolated structures which we called cytoplasmic blebs. These bulbous protrusions and cytoplasmic blebs were often found to be phagocytosed by fibroblast-like cells and macrophages. A series of these tissue changes in the uterine myometrium after delivery, possibly due to hypoxic conditions, contribute to a rapid involution of SMC which have enlarged during pregnancy.     

Influence of fasting and stimulation on the rat gastric endocrine cells

Summary The ultrastructure and certain cytochemical parameters of endocrine cells of the rat gastric mucosa during 168 h of fasting were investigated. To some of the fasting animals peroral food or alcohol was administered before decapitation.The EC (enterochromaffin cells) the ECL (enterochromaffin-like cells), D₁ cells, AL (A-like cells) and G cells were identified by means of electron microscopy. Only the EC, ECL, and G cells could be identified by means of light microscopy by an adequate histochemical technique.The ultrastructural picture of the ECL and of the EC cells did not change markedly during the fasting. In the D₁ cells there occurred an agglomeration of secretory granules. Some of them disintegrated and disappeared. In the AL cells an agglomeration of granules during the fasting was also observed. Granules engulfed in lysosomes were often found. The participation of lysosomes in the degradation of granules during the fasting was more marked in the AL cells than in the G cells. The participation of lysosomes was questionable in the EC and D₁ cells, and in the ECL cells no lysosomes were observed. In contradistinction to the G cells of the non-fasting animals, where more than one half of the gastrin granules were empty, the G cells during the fasting were filled with agglomerated dense granules and contained lysosomes with fragments of engulfed secretory granules.Following the administration of food (Larsen's diet) 3 h before sacrificing the dissolution of the content of granules with well preserved membranes was observed (emiocytosis did not take place). The administration of food did not lead to changes in the ultrastructural appearance of the EC cells. The peroral administration of alcohol did not lead to any changes in the ultrastructural appearance of the AL and G cells.     

Density gradient separation of two populations of lysosomes from rat parotid acinar cells

Exocrine acinar cells possess two cytochemically distinct populations of secondary lysosomes. One population is Golgi associated and has demonstrable acid phosphatase (AcPase) activity, whereas the second is basally located and lacks AcPase activity but has trimetaphosphatase (TMPase) activity. The basal lysosomes are tubular in shape and rapidly label with horseradish peroxidase (HRP) after intravenous injection. In the present study using isolated rat parotid acinar cells, the two lysosomal populations were separated by cell fractionation on Percoll density gradients and were analyzed biochemically and by EM cytochemistry. On 35% Percoll gradients, two peaks of AcPase and beta-hexosaminidase, both lysosomal marker enzymes, and succinic dehydrogenase, an enzyme marker for mitochondria, could be resolved. The major peaks of beta-hexosaminidase and succinic dehydrogenase and the minor peak of AcPase corresponded with the dense lysosome fraction. The major peak of AcPase and the minor peaks for beta-hexosaminidase and succinic dehydrogenase coincided with the light membrane fraction. Galactosyl transferase (a marker enzyme for Golgi saccules) and 5'-nucleotidase (a plasma membrane marker) were also associated with this fraction. By electron microscopy, the light membrane fraction was seen to contain tubular elements, multivesicular bodies (MVB), Golgi saccules, GERL, immature secretory granules, and some mitochondria. Electron microscopic cytochemical examination showed that these tubular structures were lysosomes. The dense lysosome fraction contained lysosomes positive for both AcPase and TMPase. After continuous incubation of isolated acinar cells with HRP, reaction product was rapidly localized to the light membrane fraction (greater than 2 min), where it was found in vesicles and tubular lysosomes. By 10 min it was present in MVB and tubular lysosomes, but by 60 min no HRP reaction product had appeared in the dense lysosomes. These results demonstrate that the tubular lysosomes are separable from dense lysosomes, typical secondary lysosomes, and are involved in the initial stages of endocytosis.     

Histochemical Evidence for the Presence of Lysosome-like Particles in root Meristem Cells of Vicia faba

The lysosomes of animal cells, as defined by biochemists, areparticles limited by a lipid-protein membrane and which containhydrolytic enzymes; they are inert until the permeability ofthe limiting membrane has been altered. In addition, the lysosomesin animal cells have been demonstrated also by histochemicalprocedures. Acid phosphatase may be used as a marker for lysosomes,and can be demonstrated by a modified Gomori procedure. Thus,in controlled-temperature frozen sections of plant tissue, ithas been possible to demonstrate granules which are inactivefor acid phosphatase until subjected to agents that will disruptlipid-protein structures, namely freezing and thawing, formaldehydeand heat. Whether such particles are the lysosomes is discussed.     

Tubular lysosomes in rat and gerbil pinealocytes

Ultracytochemical demonstration of acid phosphatase (AcPase) in pinealocytes of rat and Mongolian gerbil (Meriones unguiculatus) has revealed an existence of tubular lysosomes (30-200 nm in diameter and more than 5 micron long) in their cytoplasm. The tubular lysosomes arise by bulging from GERL cisternae (Golgi apparatus, endoplasmic reticulum, lysosomes) and spread throughout the whole cell body without forming an anastomosing network. Numerous varicosities are characteristic for the tubular lysosomes whose similarity with grumose bodies has lead to conclusion that the vermiculate variety of the latter are almost certainly tubular lysosomes. The role of these organelles is unknown. Their possible engagement in a rapid cytoplasmic remodelling of the pinealocyte body in answer to various stimuli has been discussed.     

A role for small GTPase RhoA in regulating intracellular membrane traffic of lysosomes in invasive rat hepatoma cells

Small GTPase RhoA regulates signal transduction from receptors in the membrane to a variety of cellular events related to cell morphology, motility, cytoskeletal dynamics, cytokinesis, and tumour progression, but it is unclear how RhoA regulates intracellular membrane dynamics of lysosomes. We showed previously by confocal immunofluorescence microscopy that the transfection of dominant active RhoA in MM1 cells causes the dispersal translocation of lysosomes stained for cathepsin D throughout the cytoplasm. Y-27632, a selective inhibitor of p160ROCK, impeded the cellular redistribution of lysosomes and promoted reclustering of lysosomes toward the perinuclear region. Here we have further investigated whether the acidic lysosomal vesicles dispersed throughout the cytoplasm are applied to the early endosomes in the endocytic pathway, and we demonstrate that the dispersed lysosomes were accessible to endocytosed molecule such as dextran, and their acidity was not changed, as determined by increased accumulation of the acidotropic probe LysoTracker Red. Brefeldin A did not induce the tabulation of these dispersed lysosomes, but it caused early endosomes to form an extensive tubular network. The dispersed lysosomes associated with cathepsin D and LIMPII were not colocalized with early endosomes, and these vesicles were not inaccessible to the endocytosed anti-transferrin receptor antibody. Moreover, wortmannin, an inhibitor of phosphatidylinositol 3-kinase, induced a dramatic change in LIMPII-containing structures in which LIMPII-positive swollen large vacuoles were increased and small punctate structures disappeared in the cytoplasm. These swollen vacuoles were not doubly positive for LIMPII and transferrin receptor, and were not inaccessible to the internalized anti-transferrin receptor antibody. Therefore, our novel findings presented in this paper indicate that RhoA activity causes a selective translocation of lysosomes without perturbing the machinery of endocytic pathway.     

Development of cytoplasmic digitations between Leydig cells and testicular macrophages of the rat

Summary Testicular macrophages and Leydig cells from adult animals are known to be functionally coupled. For example, secreted products from macrophages stimulate testosterone secretion by Leydig cells. In adult rat testes, structural coupling also exists between these cells. This coupling consists of cytoplasmic projections from Leydig cells located within cytoplasmic invaginations of macrophages. Although macrophages are known to exist in the testis in immature animals, it is not known when these digitations develop. The purpose of the present study was to determine whether the time of their development coincides with known maturational events that occur in Leydig cells, particularly during the peripubertal period. Testes from rats at 20, 30 and 40-days-of-age as well as testes from mature rats weighing more than 500 gm were prepared for ultrastructural analysis. It was found that digitations form between 20 and 30-days-of-age. These structures varied from simple tubular projections to complicated branched structures, suggesting that digitations are more than simple invaginations of microvilli into coated vesicles as previously described. Subplasmalemmal linear densities were also observed within macrophages juxtaposed to Leydig cells. Collagen was commonly observed between macrophages and Leydig cells in animals 20 days old. These studies demonstrate that although macrophages are present in the testis in maximal numbers at 20 days-of-age, they do not form junctions with Leydig cells until day 30. This is just prior to the major increase in secretory activity of rat Leydig cells that occurs during puberty.     

A novel fibrillar structure in cultured cells detected by a monoclonal antibody

Using a monoclonal antibody, we have detected an antigen present in a unique fibrillar structure in the cytoplasm of cultured cells by immunofluorescence. These structures have been identified by transmission electron microscopy and ultrastructural immunocytochemistry as large single paracrystalline arrays of individual filaments morphologically similar to intermediate filaments. The antibody detects these structures in fibroblastic and epithelioid cultured cell lines of mouse, rat, bovine, and human origin but not of avian origin. Only a small percentage of the cells in a culture contains these structures; each cell usually contains only one, although two or more have been observed in a single cell. The structures are elongated vermiform arrays of filaments in the cytoplasm (approximately 0.5 X 3 microns) which have a thread-like or toroidal appearance. Because of this shape, we have named the putative antigen recognized by this antibody "nematin." Double-label experiments showed that these structures had no relationship to tubulin or vimentin. Immunocytochemical localization in human tissues revealed a high concentration of a reactive antigen in the stratum granulosum of skin and in what probably are neuroglial cells in the central nervous system. This monoclonal antibody may detect a novel intermediate filament protein and/or a shared determinant of different intermediate filament proteins.     

Review article fine structure of the exocrine cells of rat sublingual gland revealed by rapid freezing and freeze substitution method

The ultrastructure of mucous cells of rat sublingual gland processed by rapid freezing, followed by freeze substitution, was compared with that obtained by the standard chemical fixation technique. The rapid freezing method gave a very good preservation of membrane structure with round and discrete mucous droplets (granules) not showing any sign of coalescence. The cisterns of the Golgi apparatus and the trans Golgi network also were well preserved. Upon secretory stimulation by pilocarpine, mucous droplets were discharged by the usual mechanism of exocytosis. From all these findings it emerged that mucous cells had the same structural characteristics as serous cells. In the endpieces of rat sublingual gland prepared by the rapid freezing method, serous cells aligned with mucous cells around the central lumen, and no cap-like arrangement of serous cells (demilunes) was observed. Furthermore, computer reconstruction of stereo images from serial section light micrographs prepared by the rapid freezing method showed that, within a given endpiece, all serous cells had direct access to the lumen and that they were disseminated throughout it and not only in its fundus. From our observations it seems very likely that, at least in rat sublingual gland, serous demilunes are an artificial product caused by the compression exerted on serous cells by the mucous cells distended during the conventional fixation procedure.     

Actin cytoskeleton controls movement of intracellular organelles in pancreatic duct epithelial cells

In most eukaryotic cells, microtubules and filamentous actin (F-actin) provide tracks on which intracellular organelles move using molecular motors. Here we report that cytoplasmic movement of both mitochondria and lysosomes is slowed by F-actin meshwork formation in pancreatic duct epithelial cells (PDEC). Mitochondria and lysosomes were labeled with fluorescent Mitotracker Red CMXRos and Lysotracker Red DND-99, respectively, and their movements were monitored using epi-fluorescence and confocal microscopy. Mitochondria and lysosomes moving actively at rest stopped rapidly within several seconds after an intracellular Ca(2+) rise induced by activation of P2Y(2) purinergic receptors. The 'freezing' of the organelles was inhibited by blocking the Ca(2+) rise or by pretreatment with latrunculin B, an inhibitor of F-actin formation. Indeed, this freezing effect on the organelles was accompanied by the formation of F-actin in the whole cytoplasm as stained with Alexa 488-phalloidin in fixed PDEC. For real-time monitoring of F-actin formation in live cells, we expressed sGFP-fimbrin actin binding domain2 (fABD2) in PDEC. Rapid recruitment of the fluorescent probe near the nucleus and lysosomes suggested dense F-actin formation around intracellular structures. The development of F-actin paralleled that of organelle freezing. We conclude that rapid Ca(2+)-dependent F-actin formation physically restrains intracellular organelles and reduces their mobility non-selectively in PDEC.     

Secretagogue induction of cell differentiation in pancreatic acinar cells in vitro.

The effect of two different types of secretagogues on rat pancreatic acinar cells cultured onto a reconstituted basement membrane was studied. Cells cultured without any secretagogue were able to reaggregate but did not form monolayer patches. Most of them lost their differentiated ultrastructural characteristics but regained their polarity. In contrast, when CCK, caerulein, or carbamylcholine was added to the culture medium cells developed both acini-like structures and cell monolayer patches. The cells retained the differentiated ultrastructural appearance and polarity resembling their in situ morphology. Furthermore, secretagogue-conditioned cells presented higher amylase contents. The use of secretagogue antagonists such as L-364,718 and L-365,260 for caerulein, or atropine and mecamylamine for carbamylcholine, did not profoundly modify the cultures and the morphological effects triggered by the secretagogues alone. However, both CCK antagonists and cholinergic antagonists inhibited to a certain degree the secretory stimulation. Our data support the theory that a major role is played by secretagogues in conjunction with the basement membrane for the maintenance of differentiation in pancreatic acinar cells in vitro which appears to be independent from their secretory effect.     

Fate of annular gap junctions in the papillary cells of the enamel organ in the rat incisor

Summary To investigate the mechanisms whereby annular gap junctions in the papillary cells of the enamel organ are degraded intracellularly, continuously growing rat incisors were examined by electron microscopy of routine thin sections as well as for the cytochemical localization of inorganic trimetaphosphatase activity. Routine thin-section analysis revealed small flat or undulated gap junctions, hemi-annular gap junctions between an invaginated cell process and a cell body, and fully internalized cytoplasmic annular gap junctions. Both hemi-annular and annular gap junctions usually contain various organelles and/or inclusions, such as mitochondria, endoplasmic reticulum, ribosomes, vesicles, and lysosomes in the cytoplasm confined by the junctional membranes. Annular gap junctions are sometimes fused with vesicular or tubulovesicular structures. Cytochemistry of inorganic trimetaphosphatase activity revealed an intense enzymatic reaction within a system of tubular structures and round or oval dense bodies. Both structures are believed to correspond to primary lysosomes. A part of the Golgi apparatus also shows a weak reaction. Although hemi-annular gap junctions never show enzymatic reaction, annular gap junctions sometimes contain reaction products throughout their interior cytoplasm and inclusions. Fusion of annular gap-junctional membranes with reaction-positive tubular structures is also observed. In one instance, revealed in serial sections, an annular gap junction was encircled entirely by a reaction-positive structure. These results suggest that cytoplasmic annular gap junctions are formed by endocytosis of hemi-annular gap junctional membranes from the cell surface and then degraded intracellularly by lysosomal enzymes.     

Ultrastructural pathologic changes of rat extraembryonic visceral endodermal cells exposed to teratogenic antibodies in vivo

It has been well established that certain heterologous tissue antibodies may induce abnormal embryonic development when injected into pregnant rodents during the organogenetic period. It has been postulated that these antibodies indirectly cause embryopathy by interfering with the normal functions of the yolk-sac placenta. The exact mechanism whereby these antibodies may induce placental pathology is not known. Specific teratogenic antibodies against a homogeneous rat kidney glycoprotein or a visceral yolk-sac glycoprotein antigen were injected intraperitoneally into 9th day pregnant rats. Electron microscopic examinations of the extraembryonic visceral endodermal cells of the egg cylinder were performed at 4, 6, 9, and 24 hours after the administration of the teratogenic antibodies. Control animals were injected with normal rabbit serum proteins. Extraembryonic visceral endodermal cells were similarly processed and examined as the experimental groups. The results seemed to indicate that the teratogenic antibodies induced increased autophagocytosis and morphologic changes associated with the phagolysosomes (secondary lysosomes) within the extraembryonic visceral endodermal cells at 9 hours following antibody administration. After 24 hours there was an apparent reduction or a complete disappearance of the supranuclear phagolysosome-like and lysosome-like structures, and the appearance of many large and small electron lucent vacuoles containing finely granular materials. Similar ultrastructural pathology was not observed in the 4 and 6 hour experimental and all of the control groups of animals. No other obvious intracellular or intercellular changes were observed in all of the experimental groups. Although the exact mechanism whereby the teratogenic antibodies may induce pathologic changes in the extraembryonic visceral endodermal cells remains to be determined, the present ultrastructural study demonstrated, for the first time, that teratogenic antibodies induced abnormal pathology in the extraembryonic visceral endodermal cells during the critical period of organogenesis.     

Adult vascular smooth muscle cells in culture express neural stem cell markers typical of resident multipotent vascular stem cells

Differentiation of resident multipotent vascular stem cells (MVSCs) or de-differentiation of vascular smooth muscle cells (vSMCs) might be responsible for the SMC phenotype that plays a major role in vascular diseases such as arteriosclerosis and restenosis. We examined vSMCs from three different species (rat, murine and bovine) to establish whether they exhibit neural stem cell characteristics typical of MVSCs. We determined their SMC differentiation, neural stem cell marker expression and multipotency following induction in vitro by using immunocytochemistry, confocal microscopy, fluorescence-activated cell sorting analysis and quantitative real-time polymerase chain reaction. MVSCs isolated from rat aortic explants, enzymatically dispersed rat SMCs and rat bone-marrow-derived mesenchymal stem cells served as controls. Murine carotid artery lysates and primary rat aortic vSMCs were both myosin-heavy-chain-positive but weakly expressed the neural crest stem cell marker, Sox10. Each vSMC line examined expressed SMC differentiation markers (smooth muscle α–actin, myosin heavy chain and calponin), neural crest stem cell markers (Sox10⁺, Sox17⁺) and a glia marker (S100β⁺). Serum deprivation significantly increased calponin and myosin heavy chain expression and decreased stem cell marker expression, when compared with serum-rich conditions. vSMCs did not differentiate to adipocytes or osteoblasts following adipogenic or osteogenic inductive stimulation, respectively, or respond to transforming growth factor-β1 or Notch following γ-secretase inhibition. Thus, vascular SMCs in culture express neural stem cell markers typical of MVSCs, concomitant with SMC differentiation markers, but do not retain their multipotency. The ultimate origin of these cells might have important implications for their use in investigations of vascular proliferative disease in vitro.     

Phagosome-lysosome interactions related to erythrophagocytosis in Kupffer cells of fetal rat liver

Kupffer cells of fetal rat liver were examined by ultrastructural cytochemical methods to reveal acid phosphatase (AcPase) activity in lysosomes. Elongated cisternae, 940-1150 A in width containing AcPase reaction product, were identified in these cells. These cisternae were sometimes in continuity with phagosomes containing engulfed erythrocytes. Observations suggest that such cisternae may partly encircle these phagosomes. The relationships of these cisternae to GERL (Golgi Endoplasmic Reticulum Lysosomes) is discussed.     

Rat brain glial cells in culture: Effects of brain extracts on the development of oligodendroglia-like cells

Cells dissociated from brains of newborn rats and grown on plastic surfaces develop into a glial culture, composed of at least three morphologically different cell types. The predominating cell type consists of astroglial cells, which form a monolayer. The second cell type, rarely observed, consists of ependymal cells. The third type consists of small cells scattered upon the astroglial layer. After 3 weeks very few of these small cells remain and the glial culture develops into a more homogenous appearance, mainly composed of astroglial cells. The effects of various brain extracts on the development of the small cell type was investigated. The treatment by either rat or chick brain extracts caused an increase in the number of these cells, which were seen to form clusters. Brain extracts from older animals have a stronger effect than brain extracts from younger animals. These data suggest that factors contained in the brain during and after the myelination period influence the development of this cell type in dissociated cultures. The small cells were tentatively identified as oligodendroglial cells by ultrastructural and histochemical criteria. They did not contain acetylcholinesterase (AChE) and did not bind tetanus toxin. Furthermore, they did not contain glial fibrillary acidic (GFA) protein. But carbonic anhydrase II (CAII) was found in them at light and electron-microscopical level. CAII was found to be localized essentially on the plasmic membrane and on the endoplasmic reticulum of these cultured oligodendroglial cells.     

The effects of ACTH on acid phosphatase activity in endosomes, GERL and lysosomes of cultured adrenal tumor cells

Cultured cells derived from a mouse adrenocortical tumor transplant are unspecialized in appearance, but produce basal levels of steroids and demonstrate a near-immediate steroidogenic response to ACTH. There is biochemical evidence that ACTH induces increases in the uptake of serum lipoproteins by these cells and that this material is hydrolyzed in lysosomes to free cholesterol, a precursor for steroid end products. To investigate morphologically the role of lysosomes in the steroidogenic activity of these cells, cultures were incubated for 4 h with and without ACTH, then processed for the ultrastructural localization of acid phosphatase (ACPase), a marker enzyme for lysosomes, and for GERL, the lysosome-forming subcompartment of the Golgi, and examined by TEM and HVEM. Steroid output was determined by a fluorometric technique. Unstimulated cells secreted basal levels of steroids. By TEM, large endosomes, some containing semi-compact material and ACPase reaction product, were occasionally seen at the cell periphery and in the Golgi region. The Golgi and GERL were poorly developed. Residual bodies, a few of them ACPase+, appeared in the Golgi region and in microtubule-associated clusters near the cell membrane. ACTH-stimulated cells secreted steroids at 8-10 fold basal values. In TEM records, they displayed numerous ACPase+ endosomes between the cell periphery and the Golgi. The Golgi and GERL regions appeared to be hypertrophied and many large, inclusion-containing, strongly ACPase+ residual bodies appeared here and in elongated microtubule-containing cell processes. HVEM micrographs showed more definitively that ACTH produced distinct increases in the size of GERL and in the number of ACPase+ organelles. Our results suggest that in unstimulated cells, endosomes, presumably containing media-derived material, gain lysosomal enzymes in or near GERL, are transformed to residual bodies as their contents are hydrolyzed, and are subsequently translocated by microtubules to the cell periphery for exocytosis. ACTH appears to intensify all of these effects. The "giant" lysosomes seen in stimulated cells may result from a fusion of smaller lysosomes. Their amorphous contents may reflect an inefficient hydrolysis of LDL to free cholesterol.