Functional morphology of the pars intermedia of the rat hypophysis as revealed with the electron microscope

Summary The pars intermedia of the hypophysis of normal and experimental rats was studied by electron microscopy. Observations of the hypophysis at various intervals following formalin induced stress or adrenalectomy indicate the existence of a functional relationship between the posterior lobe, the pars intermedia, and the adrenal cortex.Glandular cells of the normal pars intermedia are divided into two types, i. e., the light and dark cells. The former type dominates in number and is characterized by a large amount of cytoplasm filled with clear vesicles 250–350 m in diameter. Dark secretory granules smaller than 300 m are few in number and restricted to the Golgi region.After a single injection of formalin, the clear vesicles of the light cell dimmish and dark secretory granules varying in opacity increase in number. Transition from dark granules to clear vesicles is suggested. Three to five days after adrenalectomy, the light cells contain an abundance of moderately dense vesicles which are smaller than the larger more electron lucent vesicles of the normal light cells. The moderately dense vesicles are about 200 m in diameter and are extremely abundant filling the entire cytoplasm of the light cells 7 days after adrenalectomy.Bundles of unmyelinated nerve fibers are often observed in the pars intermedia, and a typical neuroglandular synapse was found in the pars intermedia of a sham-operated animal suggesting neural control of the secretion process of pars intermedia cells.The author wishes to express his hearty thanks to Dr. K. Kurosumi for his guidance throughout this work.     

Effects of experimental hypo-or hypernatremia on the fine structure of the pars intermedia of the murine pituitary

Summary Quantified ultrastructural observations of the pars intermedia (PI) of the murine hypophysis enable evaluation and kinetic study of relatively fine secretory changes in the gland. Changes in volume of rER and newly formed dense secretory granules (Golgi granules) appear to best translate functional variations in the PI, as shown by the morphological effects of drugs affecting the dopaminergic control of the gland. Our morphometric results show that the PI is stimulated, but only briefly (no longer than 8–12 days), by both salt-loading and Na deprivation. However, the PI displays different secretory patterns in salt-loaded and Na-deprived mice; moreover, bromocriptine, which abolishes PI stimulation in Na-deprived mice, has only a slight inhibitory effect in salt-treated animals. Thus, it appears that the stimulation of the PI under both experimental conditions is triggered by different mechanisms. These results underline the plurifactorial control of the PI and show that the gland may have complex effects on hydromineral regulation.     

Ultrastructure of the pars intermedia of the adult sheep hypophysis

Summary Light microscopy of coronal sections of the sheep pars intermedia revealed a compact, incompletely lobulated V-shaped region about 15–20 cells thick, situated between the pars distalis and the pars nervosa. A prominent hypophysial cleft and follicles containing a colloid-like substance were seen.Using electron microscopy, five cell types could be distinguished: pars intermedia glandular cells, pars distalis-like glandular cells, interstitial cells, follicular cells and cleft lining cells. The polyhedral to pear-shaped pars intermedia glandular cells predominated. They contained dense-cored, membrane-bound granules near the Golgi complex, and larger, irregular vesicles with finely granular contents of varying electron density throughout the remaining cytoplasm; exocytotic release of granules was occasionally observed. Smaller numbers of cells resembling those seen in the pars distalis were scattered throughout the pars intermedia. Interstitial cells usually possessed elongated cytoplasmic processes which extended between the glandular cells, and were characterized by deeply indented nuclei, elaborate junctional complexes and an absence of cytoplasmic granules. Cells lining the follicles resembled the interstitial cells. The major cells bordering the hypophysial cleft were triangular in section and bore irregular microvilli on their free surface. The pars intermedia appeared to be less vascular than the remainder of the hypophysis and only occasional fenestrated capillaries were seen. Nerve profiles were rare.     

Electron microscopic studies on the pars intermedia of the ferret

Summary The structure of the pars intermedia of the ferret has been studied with the electron microscope, with particular reference to the morphology of the glandular cells and their innervation. Two types of cell were found. The predominant cell is ovoid in shape and contains membrane-bound vesicles of varying size (1,000–5,000 Å) and density, the most electron-dense of which are associated with the Golgi region. The nucleus is indented and the cytoplasm contains rough endoplasmic reticulum. The second cell type is often associated with the colloid material and is elongated or stellate-shaped with long processes which extend between the predominant cells. It is devoid of cytoplasmic vesicles and has a poorly defined Golgi apparatus. Certain other structural features of this cell such as microvilli, cilia or cytoplasmic microfilaments are reminiscent of ependymal cells.Numerous nerve endings are observed throughout the pars intermedia, making synaptic contact with the predominant cell type. The majority contain vesicles with an electron-dense core measuring 750 Å; less frequently terminals contain dense granules measuring 1,000 A or more. Both also contain small electron-lucent vesicles (200–400 Å); occasionally terminals containing only the latter type are found. The pattern of innervation in the ferret is thus comparable to that previously observed in the cat, rather than that seen in rodents or monkeys, and the implications of this finding are discussed.We are indebted to Prof. Sir Solly Zuckerman, O. M., K. C. B., F. R. S., for his help and guidance and to Mr. J. Wallington for his unfailing technical assistance.     

Seasonal plasticity of the pituitary pars intermedia of the one-humped camel (Camelus dromedarius)

The pituitary pars intermedia of Camelus dromedarius is well developed and completely surrounds the pars nervosa. Two major groups of cells are present: endocrine (ec) and glial-like cells (glc). The ec group is composed of three morphologically distinct cell types. Type I, or polyhedral light cells (LC-I) and type II, or polyhedral dark cells (DC-II), have secretory granules of heterogeneous electron density whose size ranges from 170 to 300 nm. Type III cells are elongated with homogeneous electron-dense secretory granules of 80–200 nm. The glc make up an organized network, form follicles in the centrolobular zones and are positive for vimentin and S-100β immunolabelling. The nerve fibres penetrating the lobe are numerous, and can be classified into two types according to the membrane bound vesicles found in their endings (ne). Ultrastructural quantitative analysis revealed significant variations in PI elements between winter and summer seasons (F = 8.014, p = 0.006). DC-II cells characterized by developed biosynthetic machinery and a large pool of secretory granules storage are increased with the ne in winter. However, LC-I cells showing frequent cytoplasmic degranulation are predominant with glc in summer. Thus, important cellular remodelling occurs in the dromedary PI that may depend upon, or perhaps anticipate, external living conditions.     

Studies on secretory activity in the pars intermedia of Xenopus laevis 1: Fine structural changes related to the onset of secretory activity in vivo

Changes in the fine structural organization of the pars intermedia related to the onset of secretory activity within the gland have been studied. It is shown that during the first seven days, following the onset of secretory activity, there is an extensive membraneogenesis within the cytoplasm of the parenchymatous cells of the pars intermedia which results in the formation of a well-organized array of endoplasmic reticulum and an increased development of the Golgi complex. Simultaneously the large population of secretory granules present in the cells in the inactive condition is reduced, the granules fusing with the plasma membrane and releasing their contents into the extracellular space. During the process of intracellular reorganization, in addition to the elaboration of those components of the Golgi complex which are believed to be concerned with the formation of the secretory granules, a second distinctive cisternal element develops within the Golgi area. This component which remains confined to the Golgi area for only a short time (days 2-4) appears to be responsible for the production of membrane-bound dense bodies with a finely granular content. The dense bodies, in turn, become transformed into the larger heterogeneous structures which are a prominent feature of actively secreting pars intermedia cells.     

The pars intermedia of the mink,Mustela vison

Summary The pars intermedia of intact and experimental female minks has been studied by light, electron and fluorescence microscopy. The general structure of the mink intermediate lobe is described. Two main cell types are recognized. One, termed glandular cell, predominates in number and is characterized by the presence of electron-dense granules about 200 nm in diameter and numerous large vesicles up to 300 nm in diameter. The other, termed stellate cell, is devoid of cytoplasmic vesicles and granules and possesses microfilaments, junctional complexes and elongated processes inserted between the glandular cells. Different treatments (photostimulation and administration of hypertonic saline and metopirone) induced morphological reactions in the glandular cells. The significance of these changes and the possibility of a functional relation between the pars intermedia and ACTH secretion are discussed.Numerous nerve fibres and axon terminals containing electron-dense granules (60–120 nm) and electron-lucent vesicles (30–40 nm) are observed throughout the pars intermedia.With the histochemical fluorescence method of Falck-Hillarp a rich system of delicate fluorescent varicose fibres, sometimes provided with irregular swellings or droplets, is observed in the pars intermedia and also in the pars nervosa. Microspectrofluorometrically these fibres exhibit the spectral characteristics of catecholamines. All the cells of the pars intermedia and a large number of cells in the pars distalis show a yellowish weak fluorescence, which becomes much stronger after combined formaldehyde-ozone treatment. This cellular fluorophore shows the same microspectrofluorometric characteristics as does the fluorophores of tryptamine and of certain peptides with NH₂-terminal tryptophan.Supported by the Swedish Fur Breeders' Association and the Swedish Natural Science Research Council (grant No. 2124). Thanks are due to Miss W. Carlsson and Miss Y. Lilliemarck for their helpful technical assistance.Supported by the Harald and Greta Jeanssons Stiftelse and by the Ford Foundation. The skilful technical assistance of Mrs. Eva Svensson and Miss Annika Borgelin is greatfully acknowledged.     

Control of the pars intermedia of the lizard,Anolis carolinensis

Summary The ultrastructure of the neural lobe of the lizard, Anolis carolinensis, was studied after fixation in a threefold aldehyde solution. The neural lobe appeared as narrow vertical diverticula separated from one another and from the pars intermedia by a continuous vascular septum. No nerves passed through this septum. The ependymal, fibrous and external layers were readily recognized. Peptidergic fibres were the main component of the fibrous layer. The peptidergic endings were in intimate contact with the ependymal cells, suggesting that the ependyma mediates the release of neural lobe peptides. The external layer contained ependymal end-feet and numerous aminergic terminals, ending directly on the perivascular basal lamina and/or on the ependymal end-feet. The functional aspects are discussed in terms of intermediate lobe control. The findings suggest that aminergic substances take part in the control of the intermedia, but do not exclude the involvement of peptide hormones.Supported by grants from the Swedish Natural Science Research Council and the Royal Physiographic Society of LundThe authors are indebted to Mrs. Lena Sandell for valuable technical assistance and to Miss Inger Norling and the late Mr. Lajos Erdös for photographic aid     

Immunocytochemical evidence for vasopressin receptors.

An electron microscopic study was made of mouse pituitaries immunocytochemically stained with anti-lysine vasopressin (LVP) as the primary antiserum in the unlabeled antibody peroxidase-anti-peroxidase procedure. Vasopressin (VP) was identified in the neurosecretory granules of the neural lobe which stained with peroxidase anti-peroxidase molecules. Electron density was induced in secretory granules of the pars intermedia (PI), both in the melanocyte stimulated hormone and ACTH cell types, probably indicating VP molecules attached to binding (receptor) sites. Omission of anti-LVP abolished staining both in the neural lobe and the PL Anti-LVP absorbed with antigen, by admixing with LVP, abolished staining in the neural lobe but not in the PI; according to optical density measurements the PI showed a +/- 22% staining increase over controls. Staining intensity in the PI probably reflects occupancy of binding (receptor) sites for VP. Exposure of PI granules to LVP before the usual staining sequence resulted in +/- 48% increased staining. In water-deprived mice with high endogenous VP titers, staining was +/- 33% and +/- 40% more intense than in normal mice. Solid phase absorbed and eluted antibodies to LVP provided additional proof that staining in both neural lobe and PI could be attributed to anti-LVP. Results indicate that binding or receptor sites for VP are located on secretory granules in the PL Possible physiological significance is discussed.     

Ultrastructure of the anuran pars intermedia following severance of hypothalamic connection

Summary The ultrastructure of the pars intermedia of Rana catesbeiana tadpoles was studied following isolation from the hypothalamus, in vivo after sectioning of the pituitary stalk, and in vitro after implantation of the pituitary into a piece of tail fin. Both experimental procedures were followed by rapid and sustained skin darkening. Pituitaries from normal light and dark adapted tadpoles served as controls.In 4-hour disinhibited glands, melanotrophs revealed hyperactive Golgi bodies, colloid vesicles (1–2 microns) in close proximity to axon terminals, and no apparent loss of secretory granules. At 24 hours extracellular colloid adjacent to axon terminals was found, and extensive arrays of RER appeared in the melanotrophs. Obvious granule loss from secretory cells occurred within a week, by which time the cytoplasm was occupied by large cisterns of SER and RER and abundant free ribosomes. Dense core vesicles (600–900 Å) in aminergic nerve terminals disappeared shortly after isolation of the pituitary from the hypothalamus, and only decreasing numbers of translucent vesicles (200–300 Å) were found.The functional significance of these changes is discussed, with particular emphasis on the mode of acute hormone release.This study was carried out in the Department of Anatomy, Albert Einstein College of Medicine, New York. I am greatly indebted to Professor Berta Scharrer and Professor William Etkin for their sponsorship, guidance and encouragement. Warm thanks are due to Mrs. Sarah Wurzelmann and Mr. Stanley Brown for their technical assistance. Support from U.S.P.H.S. grants NIH-NB 00840, NIH R01 Am 3984 and NSF Grant 12353 is gratefully acknowledged.     

Pattern of crypt cell proliferation in the pre- and post-closure ileum of the neonatal rat: Effects of sympathectomy

Summary The ultrastructural localization of adenylate cyclase was accomplished cytochemically in the neurointermediate lobe of Sprague-Dawley rats. The main concentration of the reaction product was found on the plasmalemma of neurosecretory nerve fibers, their terminals and plasma membranes of pituicytes. Positive reaction for adenylate cyclase was found less regularly in endothelial cells, pericapillary spaces and processes of the basal lamina. The septum between the pars nervosa and the pars intermedia showed heavy deposits of the reaction product, especially around the neurosecretory nerve fibers but also around other types of nerve fibers. Reaction for adenylate cyclase was not seen in the cells of the pars intermedia. When the substrate (ATP) was omitted, no reaction product was found. These findings support the suggestion of an involvement of cyclic AMP in the release mechanism of neurohypophysial hormones from the neurosecretory nerve terminals, and possibly also their transfer into blood vessels and perivascular channels.Supported by M.R.C. (Canada)Carreer Investigator of the Medical Research Council of Canada     

Ultrastructural features of the developing hypothalamo-hypophysial axis in the rat

Summary Nerve fibres containing granular vesicles first appear in the median eminence of the rat on the 16th foetal day while secretory granules in the cells of the adenohypophysis are not present till the 17th foetal day. These observations suggest that the differentiation and early activity of pars distalis cells may depend on substances elaborated at nerve terminals in the median eminence. Although the loops of the primary plexus of portal vessels do not develop until the 4th postnatal day, substances released by nerve fibres in the neurohypophysis could reach the pars distalis through vessels already present at the 15th foetal day in the mesenchyme between the diencephalon and the adenohypophysis. This view is supported by the fact that the earliest cells to exhibit ultrastructural evidence of secretory activity are in the rostral pole of the pars distalis, the first region of the gland to become vascularized. The earliest granules to appear in the cells of the pars distalis correspond to those which are considered to contain mucoprotein hormones; somatotrophin type granules were seen only in postnatal tissues.The finding that, in the median eminence, the development of granular vesicles precedes that of agranular vesicles is discussed with reference to the times at which neurosecretory materials and monoamines become detectable in the region.We should like to thank Miss Ann Pearson, Mr. D. Burns, and Mr. J. Nailon for their technical assistance, and Mr. J. Simmons, F.R.P.S., for his help in the preparation of illustrations. This work was supported by grants from the National Health and Medical Research Council of Australia.     

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)     

Ultrastructural localization of actin in the intermediate lobe of rat hypophysis

The localization of actin in the cells of the pars intermedia of rat hypophysis was studied by means of the polyethylene glycol (PEG) embedding and subsequent de-embedding method together with FITC and IgG-colloidal gold immunolabelling techniques. Actin immunofluorescence was detected to be punctate throughout the entire cytoplasm, except for the nuclear region. In electron microscopy actin gold-labelling was localized on portions of microtrabeculae in close association with the secretory granules, but not within the secretory granules themselves. This close association of actin with the secretory granules strongly suggests the involvement of the contractile protein in the cellular secretory process. Several restrictions due to the PEG-method itself are also discussed to interpret clearly immunoelectron microscope images from the embedment-free sections.     

The effect of change of background colour on the ultrastructure of the pars intermedia of the pituitary of the eel (Anguilla anguilla)

Summary Colour change in the eel resulted in marked ultrastructural changes in the pre-dominating (Type II) secretory cells of the pars intermedia of the pituitary. The effects on these cells of transferring eels from white to black backgrounds for periods of up to 56 days were: a) hypertrophy of the rough endoplasmic reticulum, which increased from 12 to 35% of the cytoplasmic volume; b) loss of secretory granules which decreased from 38 to 5% of the cytoplasmic volume; c) development of a system of fine (25–35 nm) tubules located especially at the secretory poles of the cells but also found in the region of the Golgi apparatus. The tubules were seen to connect with the plasma membrane, with the limiting membrane of the secretory granules, and in one instance to connect a granule with the plasma membrane. After glutaraldehyde fixation at pH 5, electron dense material similar to that found in the secretory granules was observed in the lumen of many of the tubules.The changes that occurred in black background eels are taken to indicate that the Type II cells of the pars intermedia are responsible for MSH secretion, particularly since these changes were reversed by returning eels to white backgrounds. The cytoplasmic tubules found in Type II cells may indicate a process for MSH release which does not involve granule extrusion, but rather direct transport of material from the Golgi apparatus to the cell membrane.The electron microscope facilities used in this investigation were funded by the Medical Research Council.     

A morphometric study on the pars intermedia of the hypophysis during impairment of the renin-angiotensin-aldosterone system in sodium depleted mice

Fine structural alterations were investigated in cells of the pars intermedia of the pituitary of mice treated for four weeks with (a) a sodium deficient diet, (b) a sodium deficient diet mixed with propranolol (renin-inhibitor), (c) a sodium deficient diet combined with propranolol and amino-glutethimide (corticosterone 18-hydroxylase inhibitor), and (d) a sodium deficient diet combined with propranolol, aminoglutethimide and dexamethasone. The number of secretory granules decreased from 5.0/mum2 in the normal control of 2.4/mum2 in all four experimental groups suggesting that the cells in treated groups had reached an equilibrium in the production and release of secretory granules during the chronic treatments. The number of immature Golgi granules per unit Golgi area was 0.91 in the control, while this value rose to 3.29 (3.62 fold of the control), 4.37 (4.8 fold), 4.94 (5.43 fold) and 5.16 (5.67 fold) respectively in the four experimental groups. In these groups a good correlation was observed between the number of immature granules and the percent volume of rough endoplasmic reticulum (r=0.985, p less than 0.01). The present study suggests that the pars intermedia contains an unidentified pituitary factor (or factors) essential for aldosterone biosynthesis.     

Endorphins are located in the intermediate and anterior lobes of the pituitary gland, not in the neurohypophysis.

Immunocytofluorescence techniques with well characterized anti-sera to α-endorphin and β-endorphin show presence of these two peptides in all cellular elements of the pars intermedia of the rat hypophysis, and in discrete cells of the pars distalis (adenohypophysis) at the complete exclusion of the neurohypophysis (pars nervosa, posterior lobe).     

Electron microscopic-immunocytochemical localization of adrenocorticotropin and melanocyte stimulating hormone in the pars intermedia cells of rats and mice

Summary Electron microscopic localization of adrenocorticotropin (ACTH) and melanocyte stimulating hormone (MSH) in light, dark and ACTH cells in the pars intermedia (PI) of rats and mice is attempted by using antisera to _p 1–24, _p 17–39 ACTH and _b MSH with the immunoglobulin-peroxidase bridge technique. All of the PI parenchymatous cells (light, dark and ACTH cells), except the marginal cuboidal and the ependymal like cells, in rats and mice show very good localization of ACTH and MSH staining. In the light and dark cells, stain of varying intensity is seen on the secretory granules, vesicles and also in many places on the surface of the rough endoplasmic reticulum. There is no staining on the mitochondria, in the nuclei or in the granules inside and around the cisternae of the Golgi complex. Dark stained dense core granules become larger and larger as they appear farther and farther away from the Golgi complex. On the other hand, in the ACTH cells of the PI, ACTH antisera show stronger stained granules in the Golgi complex including the cisternae, similar to the pars distalis (PD) ACTH cells. From these observations it is concluded that the corticotropin in light and dark cells, is not packaged or condensed in the Golgi complex like that in the ACTH cells. MSH synthesis in light and dark cells also seems to be similar to that of ACTH synthesis. It is likely that the granules accumulate ACTH and MSH secretions after they are liberated from the Golgi cisternae, and thus become bigger and bigger in size. In case of ACTH cells of PI and PD, corticotropin may be packaged in Golgi cisternae and the size of the granule does not change much. This shows that there are distinct immunocytochemical differences between the light, dark and ACTH cells of the PI. At the moment, it is difficult to say whether ACTH and MSH are present in the same granule or not.The present and previous studies show that the ACTH and MSH secretion in the PI of rats and mice depends on the hypothalamic neural control.This study was supported by MRC of Canada Grant nos. MA-3759, and MA-5160.The author gratefully wishes to thank Drs. P. Desaulles and W. Rittel (CIBA, Basle, Switzerland) for the synthetic _p 1–24 ACTH and _b MSH, Dr. R. F. Phifer for _p 17–39 ACTH, and Dr. S. S. Spicer for providing samples of rabbit anti-porcine 17–39 ACTH and anti-human ACTH sera, Drs. George Sétáló and Paul Nakane for their valuable advice. He also acknowledge the help of Mr. Shankar Nayak to prepare the antisera and the skilful technical assistance of Miss. Elise Poiré. He wishes to acknowledge Mr. Gatson Lambert for his photography.     

Effects of reserpine administration on the fine structure of the rat pars intermedia

Summary Hormone release from the pars intermedia is under inhibitory control of the hypothalamus. Control may be mediated via dopaminergic fibers which directly contact secretory cells. Administration of reserpine in vivo to adult male rats for four consecutive days results in major alternations in pars intermedia cytology. Cells show expanded areas and whorls of rough endoplasmic reticulum, as well as extensive Golgi zones with numerous dense granules. Some nerve fibers exhibit alterations in vesicle content, while others retain a more normal appearance. Freeze-fracture of glands from reserpine-treated animals provides evidence for exocytosis of granules, although such phenomena are not observed in thin sections. The ultrastructural findings suggest that reserpine alters the content of local inhibitory neurotransmitters in the pars intermedia, leading to unrestrained hormone release, followed by renewed granule synthesis.My thanks to Ms. Judi DeLongo for skillful technical assistance     

An immunohistochemical study of adenohypophyseal cells in the viviparous reptile Chalcides chalcides

The morphology of the hypophysis and the immunocharacteristics of the adenohypophyseal cells in the viviparous reptile Chalcides chalcides were studied by light microscopy, using conventional staining methods and an indirect antibody technique (ABC method), respectively. The general morphology of the C. chalcides hypophysis was comparable to that of other reptiles, showing three main regions: the pars distalis, the pars intermedia and the pars nervosa. The gland appeared as an elongated body in a cephalic-caudal direction and was almost completely enclosed in the sella turcica. For this reason, the hypophysis was studied in toto with the brain in decalcified specimens. The pars distalis accounted for most of the whole organ. The pars intermedia surrounded the pars nervosa as a goblet. The pars tuberalis was lacking.The immunohistochemical identification of the adenohypophyseal cells was performed using rabbit antisera against mammalian/synthetic hypophyseal hormones. Prolactin cells were clustered in small cellular cordons in the rostral pars distalis and in the medial pars distalis in both male and female specimens. Somatotropic cells were found in the caudal pars distalis. Corticotropic cells were observed in the medio-rostral pars distalis, as well as in the pars intermedia, where melanotropic cells were also present. Melanotropic cells were confined to the pars intermedia. Gonadotropic cells were mostly distributed in the ventral and lateral portions of the pars distalis, where they were found isolated or in small clusters. Thyrotropic cells were detected in the pars distalis with a distribution similar to that of the gonadotropic cells; however, atypically, they were also found in the pars intermedia. Therefore, the cytological characteristics of the adenohypophyseal cells appeared mostly conserved.