ENDOCRINE This resource is licensed under the Creative Commons Attribution Non-Commercial & No Derivative Works LicenseCreative Commons Attribution Non-Commercial.

ENDOCRINE This resource is licensed under the Creative Commons Attribution Non-Commercial & No Derivative Works LicenseCreative Commons Attribution Non-Commercial & No Derivative Works License

Objectives 1.To describe the gross structure of the pituitary gland and be able to identify the pars nervosa, pars intermedia and pars distalis. 2.Identify and describe the histological features of the pars nervosa and pars distalis and be able to relate these features to the different modes of hormone secretion. 3.Identify and describe the histological features of the thyroid and parathyroid glands. 4.Identify and describe the histological features of the pancreatic Islets of Langerhans. 5.Identify and describe the histological features of the adrenal gland; in particular the different regions of the adrenal cortex.

Equine Head/Brain section locate Pituitary (Hypophysis)

2 4 5 6 3 1 Cerebrum 2 Optic nerve/chiasm 3 Pituitary (Hypophysis) 4 Mamillary body 5 Interthalamic adhesion 6 Aqueduct of Sylvius 1 1 medulla cerebellum pons fornix corpus callosum Equine Head/Brain section locate Pituitary (Hypophysis)

Pituitary gland (hypophysis) At low magnification identify the main areas of the gland : A. B. C. D. B A C D 1.0 mm

Pituitary gland (hypophysis) B A C D 1.0 mm At low magnification identify the main areas of the gland : A. Pars tuberalis. B. Pars distalis. C. Pars intermedia. D. Pars nervosa.

Pituitary gland (hypophysis) B A C D 1.0 mm At low magnification identify the main areas of the gland : A. Pars tuberalis. B. Pars distalis. C. Pars intermedia. D. Pars nervosa. A,B,C form the anterior hypophysis (adenohypophysis). D forms the posterior hypophysis (neurohypophysis).

Pituitary gland (hypophysis) B A C D 1.0 mm At low magnification identify the main areas of the gland : A. Pars tuberalis. B. Pars distalis. C. Pars intermedia. D. Pars nervosa. A,B,C form the anterior hypophysis (adenohypophysis). D forms the posterior hypophysis (neurohypophysis). From what germ cell layers does : B develop?

Pituitary gland (hypophysis) B A C D 1.0 mm At low magnification identify the main areas of the gland : A. Pars tuberalis. B. Pars distalis. C. Pars intermedia. D. Pars nervosa. A,B,C form the anterior hypophysis (adenohypophysis). D forms the posterior hypophysis (neurohypophysis). From what germ cell layers does : B develop? ectoderm.

Pituitary gland (hypophysis) B A C D 1.0 mm At low magnification identify the main areas of the gland : A. Pars tuberalis. B. Pars distalis. C. Pars intermedia. D. Pars nervosa. A,B,C form the anterior hypophysis (adenohypophysis). D forms the posterior hypophysis (neurohypophysis). From what germ cell layers does : B develop? ectoderm. D develop?

Pituitary gland (hypophysis) B A C D 1.0 mm At low magnification identify the main areas of the gland : A. Pars tuberalis. B. Pars distalis. C. Pars intermedia. D. Pars nervosa. A,B,C form the anterior hypophysis (adenohypophysis). D forms the posterior hypophysis (neurohypophysis). From what germ cell layers does : B develop? ectoderm. D develop? neuro-ectoderm.

Pituitary gland (hypophysis) What are the principal secretory products of B,C and D? (The pars tuberalis contains secretory cells whose function is unknown). 1.0 mm A : pars tuberalis B : pars distalis C : pars intermedia D : pars nervosa A B C D median eminence

Pituitary gland (hypophysis) 1.0 mm A : pars tuberalis B : pars distalis C : pars intermedia D : pars nervosa A B C D median eminence What are the principal secretory products of B,C and D? B : somatotropin, prolactin, FSH (follicle-stimulating hormone), LH (luteinizing hormone), TSH (thyroid-stimulating hormone), ACTH (adrenocorticotropic hormone).

Pituitary gland (hypophysis) 1.0 mm A : pars tuberalis B : pars distalis C : pars intermedia D : pars nervosa A B C D median eminence What are the principal secretory products of B,C and D? C : MSH (melanocyte-stimulating hormone).

Pituitary gland (hypophysis) 1.0 mm A : pars tuberalis B : pars distalis C : pars intermedia D : pars nervosa A B C D median eminence What are the principal secretory products of B,C and D? D : oxytocin, ADH (antidiuretic hormone or vasopressin).

Pituitary gland (hypophysis) The pars distalis is separated from the pars intermedia. This space is the residual lumen of Rathke’s pouch (from which the anterior hypophysis develops) and is called the hypophysial cleft. The pars nervosa lies next to the pars intermedia. 250 µm

Pituitary gland (hypophysis) The pars distalis is separated from the pars intermedia. This space is the residual lumen of Rathke’s pouch (from which the anterior hypophysis develops) and is called the hypophysial cleft. The pars nervosa lies next to the pars intermedia. 250 µm pars nervosa pars intermedia pars distalis hypophysial cleft

Pituitary gland (hypophysis) 25 µm Area of the pars distalis, identify : chromophilic cells a). acidophils (staining red). b). Basophils (pale-blue staining). chromophobes seen as clusters of nuclei.

Pituitary gland (hypophysis) 25 µm Area of the pars distalis, identify : chromophilic cells a). acidophils (staining red). b). Basophils (pale-blue staining). chromophobes seen as clusters of nuclei. A : acidophils B : basophils C : chromophobes S : sinusoid A C B blood vessel S S

Pituitary gland (hypophysis) Area of the pars intermedia, identify : epithelioid cells 50 µm

Pituitary gland (hypophysis) Area of the pars intermedia, identify : epithelioid cells 50 µm pars intermedia pars nervosa pars distalis hypophyseal cleft (Rathke’s cleft) epithelioid cells

Pituitary gland (hypophysis) Area of the neurohypophysis, the pars nervosa. Identify : pituicytes (neuroglia-like cells). Herring bodies. 25 µm

Pituitary gland (hypophysis) Area of the neurohypophysis, the pars nervosa. Identify : pituicytes (neuroglia-like cells). Herring bodies. 25 µm P : pituicytes H : Herring bodies H P H H blood vessels

Pituitary gland (hypophysis) What are Herring bodies? 25 µm

Pituitary gland (hypophysis) 25 µm What are Herring bodies? Accumulations of neurosecretions at the terminal regions of nerve fibres. Note the rich vasculature of this region. H : Herring bodies blood vessels P : pituicytes H P

Pituitary gland (hypophysis) This section has been stained to show the chromophils and chromophobes of the pars distalis. Identify the main areas at this low magnification. 1.0 mm

Pituitary gland (hypophysis) This section has been stained to show the chromophils and chromophobes of the pars distalis. Identify the main areas at this low magnification. 1.0 mm pars tuberalis pars nervosa infundibular stalk pars intermedia hypophysial cleft pars distalis This section shows a number of space artefacts, Probably produced during fixation of the tissue. The area indicated as hypophyseal cleft is much exaggerated and is shown better in section 159.

Pituitary gland (hypophysis) Pars distalis : The chromophils have stained well, the acidophils staining pink and the basophils staining deep pink to purple. The chromophobes remain poorly stained. 25 µm

Pituitary gland (hypophysis) Pars distalis : The chromophils have stained well, the acidophils staining pink and the basophils staining deep pink to purple. The chromophobes remain poorly stained. 25 µm C : chromophobes A : acidophils B : basophils Bv : blood vessels Bv A C B B A

Thyroid gland Whole section viewed under low power. 1.0 mm

Thyroid gland Whole section viewed under low power. 1.0 mm lumen of trachea trachea thyroid gland

Thyroid gland Note the different sized follicles and the connective tissue capsule surrounding the gland. Connective tissue septa or trabeculae divide the gland into lobes. 250 µm

Thyroid gland Note the different sized follicles and the connective tissue capsule surrounding the gland. Connective tissue septa or trabeculae divide the gland into lobes. 250 µm connective tissue capsule thyroid follicles blood vessels in capsule connective tissue septum

Thyroid gland Thyroid viewed at higher power. What substance fills each follicle? 100 µm

Thyroid gland Thyroid viewed at higher power. What substance fills each follicle? Colloid; a suspension of iodinated thyroglobulin. 100 µm thyroid follicles thyroid colloid the colloid fills the follicles space artefacts occur during histological fixation A A : artefact

Thyroid gland Thyroid viewed at higher power. What substance fills each follicle? Colloid; a suspension of iodinated thyroglobulin. What is its function? 100 µm thyroid follicles thyroid colloid the colloid fills the follicles space artefacts occur during histological fixation A A : artefact

Thyroid gland Thyroid viewed at higher power. What substance fills each follicle? Colloid; a suspension of iodinated thyroglobulin. What is its function? Thyroglobulin is the storage form of thyroid hormones T3 and T4. 100 µm thyroid follicles thyroid colloid the colloid fills the follicles space artefacts occur during histological fixation A A : artefact

Thyroid gland Thyroid viewed at high power. What changes would be evident in a thyroid follicle under TSH stimulation? 50 µm

Thyroid gland 50 µm Thyroid viewed at high power. What changes would be evident in a thyroid follicle under TSH stimulation? The follicles would be smaller with less colloid. The cuboidal lining cells are taller, indicating active hormone synthesis and secretion. colloid space artefact cuboidal epithelium lining follicles

Thyroid gland 50 µm Thyroid viewed at high power. What changes would be evident in a thyroid follicle under TSH stimulation? The follicles would be smaller with less colloid. The cuboidal lining cells are taller, indicating active hormone synthesis and secretion. colloid space artefact cuboidal epithelium lining follicles Follicles in an inactive thyroid are larger, filled with stored thyroid colloid and have a more flattened less active epithelium.

Thyroid gland Where are ‘C’ cells located? 50 µm

Thyroid gland 50 µm Where are ‘C’ cells located? C cells also called parafollicular cells are derived from the neural crest; they occur singly amongst the follicle cells or more usually are found in small groups between the follicles. C cells arrowed

Thyroid gland What is the secretory product of C cells? 25 µm

Thyroid gland 25 µm What is the secretory product of C cells? Calcitonin : Secreted in response to high levels of blood calcium. It lowers these levels by reducing the resorption of bone. C : C cells C cuboidal follicular cells thyroid colloid

Parathyroid glands At low magnification note that these glands lie within the capsule of the thyroid. 1.0 mm

Parathyroid glands At low magnification note that these glands lie within the capsule of the thyroid. 1.0 mm thyroid gland parathyroid connective tissue capsule

Parathyroid glands The parenchymal cells form cords and are highly vascularised. What is the main cell type present in this gland? 250 µm

Parathyroid glands The parenchymal cells form cords and are highly vascularised. What is the main cell type present in this gland? Principal cells (chief cells). 250 µm capsule cords of principal cells blood vessels thyroid

Parathyroid glands What do the principal cells produce? 100 µm

Parathyroid glands 100 µm What do the principal cells produce? Parathyroid hormone (PTH). capsule cords of principal cells blood vessel

Parathyroid glands What conditions would result in the release of this hormone? 50 µm

Parathyroid glands 50 µm What conditions would result in the release of this hormone? Low blood calcium levels. Parathyroid hormone (PTH) raises blood calcium levels by increasing calcium absorption from the gut (diet) and from bone. It also decreases renal calcium excretion. active principal cells stain darkly, inactive cells are lighter staining.

Pancreas rat (H and E stain) At low magnification identify and locate the Islets of Langerhans in the pancreas. 0.5 mm

Pancreas rat (H and E stain) At low magnification identify and locate the Islets of Langerhans in the pancreas. 0.5 mm exocrine pancreas i : islets of Langerhans pale pink staining areas (3 only marked) i i i

Pancreas rat (H and E stain) With Haematoxylin and eosin the acini of the exocrine pancreas stain darker, with the basal portions of the cells staining stronger with the haematoxylin. The islets of langerhans stain pale pink by comparison. 100 µm ▪ Organ in situ. Cadaver in left lateral recumbency. ▪ Identify also : jejunum & mesojejunum, liver, portal vein, diaphragm. Pancreas right lobe descending duodenum Pancreas left lobe ascending duodenum

Pancreas rat (H and E stain) With Haematoxylin and eosin the acini of the exocrine pancreas stain darker, with the basal portions of the cells staining stronger with the haematoxylin. The islets of langerhans stain pale pink by comparison. 100 µm pancreatic acini exocrine pancreas islet of Langerhans endocrine pancreas interlobular duct blood vessel

Pancreas (Gomori stain) The H & E stain showed the pale pink areas of islets clearly against the surrounding exocrine pancreas, but all cells in the islets were stained the same. The Gomori stain helps to differentiate between cell types in the islet. Cells are stained shades of pink, purple and blue. 250 µm Pancreas – Sheep Organ in situ. Cadaver in left lateral recumbency L - Left lobe B - Body R - Right lobe Identify also: Sigmoid loop of duodenum, descending duodenum, ascending duodenum, right kidney, caudate process of liver, portal vein

Pancreas (Gomori stain) The H & E stain showed the pale pink areas of islets clearly against the surrounding exocrine pancreas, but all cells in the islets were stained the same. The Gomori stain helps to differentiate between cell types in the islet. Cells are stained shades of pink, purple and blue. 250 µm Is : islets of Langerhans lobule connective tissue capsule adipocytes interlobular duct blood vessels Is

Pancreas (Gomori stain) What cell types are present in an islet and what do they secrete? 100 µm

Pancreas (Gomori stain) 100 µm What cell types are present in an islet and what do they secrete? α cells : secrete glucagon. δ cells : secrete somatostatin. β cells : secrete insulin. F cells : pancreatic polypeptide. exocrine pancreas islet duct arteriole venule

Pancreas (Gomori stain) How many cell types can be identified based on their histological staining? 50 µm

Pancreas (Gomori stain) 50 µm How many cell types can be identified based on their histological staining? Purple staining β cells and pink staining α cells. Endothelial cells of capillaries. red blood cells capillary α α β β

Pancreas (Gomori stain) Which islet hormone will increase glycogenolysis? 50 µm β β α α

Pancreas (Gomori stain) Which islet hormone will increase glycogenolysis? Glucagon. 50 µm β β α α

Pancreas (Gomori stain) Which islet hormone will increase glycogenolysis? Glucagon. In which major blood vessel are islet hormones carried from the pancreas? 50 µm β β α α

Pancreas (Gomori stain) Which islet hormone will increase glycogenolysis? Glucagon. In which major blood vessel are islet hormones carried from the pancreas? Hepatic portal vein. 50 µm β β α α

Adrenal gland Seen at low magnification, identify the zones of the adrenal gland : i). Zona glomerulosa. A : capsule. B : cortex. ii). Zona fasciculata. C : medulla iii). Zona reticularis. 1.0 mm Sheep Adrenal Gland x/s ▪ Identify: capsule, cortex, medulla

Adrenal gland Seen at low magnification, identify the zones of the adrenal gland : i). Zona glomerulosa. A : capsule. B : cortex. ii). Zona fasciculata. C : medulla iii). Zona reticularis. 1.0 mm medulla cortex capsule zona glomerulosa zona reticularis zona fasciculata

Adrenal gland At a slightly higher magnification the zona glomerulosa and zona fasciculata of the adrenal cortex. (In horses, cats and dogs an area called the zona intermedia can be identified between the glomerulosa and fasciculata). 250 µm Dog Adrenal Gland x/s ▪ (with perirenal fat) ▪ Identify: cortex, medulla

Adrenal gland At a slightly higher magnification the zona glomerulosa and zona fasciculata of the adrenal cortex. (In horses, cats and dogs an area called the zona intermedia can be identified between the glomerulosa and fasciculata). 250 µm capsule zona glomerulosa zona fasciculata zona reticularis

Adrenal gland Cortex. Zona Glomerulosa : The cells in the zona glomerulosa are arranged in clusters or arcs. 100 µm

Adrenal gland Cortex. Zona Glomerulosa : The cells in the zona glomerulosa are arranged in clusters or arcs. 100 µm T : cortical trabeculae zona glomerulosa zona fasciculata (connective tissue) capsule T

Adrenal gland Cortex. Zona Fasciculata : The zona fasciculata forms the widest layer in the adrenal cortex. 100 µm

Adrenal gland Cortex. Zona Fasciculata : The zona fasciculata forms the widest layer in the adrenal cortex. 100 µm zona fasciculata zona glomerulosa sinusoid

Adrenal gland Cortex. Zona Fasciculata : The cells in the zona fasciculata are arranged in radial cords, usually only one cell thick. Cells are cuboidal to columnar. 50 µm

Adrenal gland Cortex. Zona Fasciculata : The cells in the zona fasciculata are arranged in radial cords, usually only one cell thick. Cells are cuboidal to columnar. 50 µm sinusoids

Adrenal gland Cortex. Zona Reticularis : This is the inner zone of the cortex lying next to the adrenal medulla. 100 µm

Adrenal gland Cortex. Zona Reticularis : This is the inner zone of the cortex lying next to the adrenal medulla. 100 µm medulla zona reticularis

Adrenal gland Cortex. Zona Reticularis : The cells in the zona reticularis form irregular anastomosing cords surrounded by sinusoids. 50 µm

Adrenal gland Cortex. Zona Reticularis : The cells in the zona reticularis form irregular anastomosing cords surrounded by sinusoids. 50 µm sinusoids irregular cords of cells

Adrenal gland Medulla : The adrenal medulla consists of columnar or polyhedral cells in cords and clusters. These are called Chromaffin cells and have a neuroectodermal origin. 100 µm

Adrenal gland Medulla : The adrenal medulla consists of columnar or polyhedral cells in cords and clusters. These are called Chromaffin cells and have a neuroectodermal origin. 100 µm adrenal medulla zona reticularis

Adrenal glands What are the hormonal products of each of these zones? Zona glomerulosa : Zona fasciculata : Zona reticularis : Adrenal medulla :

Adrenal glands What are the hormonal products of each of these zones? Zona glomerulosa : aldosterone (acts mainly on kidney to regulate electrolyte and fluid balance). Zona fasciculata : Zona reticularis : Adrenal medulla :

Adrenal glands What are the hormonal products of each of these zones? Zona glomerulosa : aldosterone (acts mainly on kidney to regulate electrolyte and fluid balance). Zona fasciculata : cortisol (many metabolic effects). Zona reticularis : Adrenal medulla :

Adrenal glands What are the hormonal products of each of these zones? Zona glomerulosa : aldosterone (acts mainly on kidney to regulate electrolyte and fluid balance). Zona fasciculata : cortisol (many metabolic effects). Zona reticularis : adrenal androgens : e.g. DHEA (dehydroepiandrosterone). Adrenal medulla :

Adrenal glands What are the hormonal products of each of these zones? Zona glomerulosa : aldosterone (acts mainly on kidney to regulate electrolyte and fluid balance). Zona fasciculata : cortisol (many metabolic effects). Zona reticularis : adrenal androgens : e.g. DHEA (dehydroepiandrosterone). Adrenal medulla : epinephrine and norepinephrine.

Adrenal gland cat (Sudan black stain) Stained with Sudan black for lipid. What are the lipid droplets? 1.0 mm

Adrenal gland cat (Sudan black stain) Stained with Sudan black for lipid. What are the lipid droplets? Cholesterol esters. 1.0 mm Lipid staining: The zona fasciculata is especially distinct and can readily be distinguished from the overlying zona glomerulosa and the underlying zona reticulosa.

Adrenal gland cat (Sudan black stain) Would the number of lipid droplets increase or decrease following stimulation with ACTH and why? 250 µm

Adrenal gland cat (Sudan black stain) Would the number of lipid droplets increase or decrease following stimulation with ACTH and why? Decrease, because they are made into steroids. 250 µm capsule ZG : zona glomerulosa ZF : zona fasciculata ZR : zona reticularis ZG ZF ZR

Adrenal gland cat (Sudan black stain) 250 µm capsule ZG : zona glomerulosa ZF : zona fasciculata ZR : zona reticularis ZG ZF ZR How is the release of catecholamines from the adrenal medulla regulated?

Adrenal gland cat (Sudan black stain) 250 µm capsule ZG : zona glomerulosa ZF : zona fasciculata ZR : zona reticularis ZG ZF ZR How is the release of catecholamines from the adrenal medulla regulated? By sympathetic innervation.

Lectures. Dr R Fowkes. Lectures. Dr C Wheeler-Jones. Second Year Histology. O20. ENDOCRINES. J Bredl. 06-09-04. Gross Anatomy Correlates. Dr S Frean. Slides and Stains. Tanya Hopcroft. Compressed and updated. 2005/6/7. 2010

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ENDOCRINE This resource is licensed under the Creative Commons Attribution Non-Commercial & No Derivative Works LicenseCreative Commons Attribution Non-Commercial.

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