Epithelium PDF
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Факултет за медицински науки - Универзитет „Гоце Делчев“, Штип
Prof. Dr. Katerina Kubelka-Sabit
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This document provides an outline for a lecture on Epithelium. It covers topics such as the function and structure of different types of epithelium. It also includes details on functions, characteristics, types, and examples, like goblet cells.
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Epithelium Prof. Dr. Katerina Kubelka-Sabit Adapted from Kristine Krafts, M.D. Epithelium Lecture Objectives • Describe the structural and functional relationship between: • epithelium and connective tissue, and • epithelium and basal lamina. • Describe the structural and functional features of ep...
Epithelium Prof. Dr. Katerina Kubelka-Sabit Adapted from Kristine Krafts, M.D. Epithelium Lecture Objectives • Describe the structural and functional relationship between: • epithelium and connective tissue, and • epithelium and basal lamina. • Describe the structural and functional features of epithelial intercellular junctions and specializations of the apical surface of epithelial cells. More Epithelium Lecture Objectives • Describe the structural and functional diversity of epithelium. • Describe the classification system of covering/lining epithelium. • Describe the histologic features of glandular epithelium. Epithelium Lecture Outline • Function and types of epithelium • Structure of epithelium • Types of covering/lining epithelium • Types of glandular epithelium Epithelium Lecture Outline • Function and types of epithelium Functions of Epithelium • • • • • • • Covering of external surfaces Lining of internal surfaces Protection Absorption Secretion Sensation Contraction Two Main Kinds of Epithelium Covering and lining epithelium Covers outer surfaces of body and lines internal body passages Glandular epithelium Contains cells specialized for secretion Unique Characteristics of Epithelium • Basal lamina anchors epithelium to underlying connective tissue. • Epithelial cells are very cohesive due to intercellular junctions. • Epithelial cells vary a lot in shape and size. • Epithelial tissues are avascular. • Epithelial cells demonstrate polarity. Epithelium Lecture Outline • Function and types of epithelium • Structure of epithelium • Basement membrane • Connections between cells • Specialized apical structures Epithelium Lecture Outline • Function and types of epithelium • Structure of epithelium • Basement membrane Epithelial cells Basement membrane Basement membrane = Basal Lamina + Reticular Lamina Epitheliu m Basal lamina Basement membran e Reticular lamina Composition of Basal Lamina and Reticular Lamina Laminin (a glycoprotein) Epithelial cell lamina lucida lamina densa Type IV collagen and perlecan (a proteoglycan) Basal lamin a Reticula r lamina Reticular fibers (type III collagen) Anchoring plaques (type IV collagen) Anchoring fibrils (type VII collagen) Functions of Basal Lamina • Structure: attaches epithelium to connective tissue • Organization: arranges plasma membrane proteins in the basal membrane • Filtration: regulates movement of material between epithelium and connective tissue Don’t make this mistake! “Basal lamina” and “basement membrane” are sometimes used interchangeably. This is wrong, wrong, wrong! The basal lamina is part of the basement membrane. They are not the same thing. Epithelium Lecture Outline • Function and types of epithelium • Structure of epithelium • Basement membrane • Intercellular junctions Intercellular junctions connect epithelial cells Intercellular junctions are present in most tissues but are especially numerous and prominent in epithelium. • Zonula occludens (tight junction) • Zonula adherens (belt desmosome) • Macula adherens (desmosome) • Hemidesmosomes • Gap junction (nexus) Intercellular Junctions Intercellular junctions (Zonula occludens) (Zonula adherens) Zona occludens (tight junction) • Most apical junction in epithelium • Form bands (zonula) that completely encircle each cell • Membranes of adjacent cells fuse to seal off the intercellular space Zona occludens (tight junction) • Claudins and occludins are two families of proteins that form a seal to prevent flow of materials between epithelial cells • More zona occludens = tighter seal Zonula adherens (belt desmosome) • Form bands that completely encircle each cell • Cadherin and catenin proteins provide adhesion between adjacent cells • Actin filaments in cytoplasm insert into attachment plaques Macula adherens (spot desmosome) • Spot adhesion between cells • Desmosomes on adjacent cells line up • Cadherins present in intercellular space Macula adherens (spot desmosome) • Cytokeratin intermediate filaments insert into attachment plaques containing desmoplakin and plakoglobin • Super strong attachment points between cells • The more desmosomes, the more tightly the epithelial cells are attached Macula adherens (spot desmosome) Pemphigus vulgaris • A blistering disease in which patients make autoantibodies to desmoglein proteins • Epithelial cell connections (spot desmosomes) loosen, causing fluid accumulation and superficial blisters Macula adherens (spot desmosome) Cytoplasmic attachment plaques Cytokeratin intermediate filaments Plasma membranes Spot desmosomes in stratum spinosum of skin Hemidesmosomes Hemidesmosomes attach epithelial cells to basal lamina. Integrins attach the basal portion of the cell to the basal lamina. Hemidesmosomes Keratin intermediate filaments in epithelial cell Attachment plaque Reticular lamina Bullous pemphigoid • A blistering disease in which patients make autoantibodies to “bullous pemphigoid antigen” in hemidesmosome attachment plaques • Epithelial cells detach from basal lamina, causing fluid accumulation and blister formation Junctional complex of intercellular junctions • ZO: zonula occludens • ZA: zonula adherens • D: desmosome • In some types of epithelia (simple columnar of digestive tract) junctions occur in this order Gap (communicating) junction • Occur almost anywhere along lateral surfaces of epithelial cells and also in other cells, such as cardiac muscle cells • Connexons are protein channels with central pores connecting plasma membranes • Allow ions and other small molecules to pass through to adjacent cells to facilitate communication name tight junction adherens junction desmosome junction gap junction hemidesmosome junction Epithelium Lecture Outline • Function and types of epithelium • Structure of epithelium • Basement membrane • Intercellular junctions • Specialized apical structures Microvilli Microvilli + cell coat (or glyocalyx) = brush border or striated border Purpose of microvilli: increase surface area for absorption or secretion Microvillus Tight junctions Belt desmosome Spot desmosome Gap junction Intermediate filament Hemidesmosome Basal lamina Microvilli Microvilli have a central core of actin microfilaments Microvilli don’t wave back and forth like cilia. Stereocilia Stereocilia Stereocilia are long, non-motile microvilli found in parts of the male reproductive system Spermatozo a Cilia Cilia are much longer and wider than microvilli. They move back and forth to propel fluid along the epithelial surface. Cilia on respiratory epithelial cells Cilia Cilia contain microtubules in a 9 + 2 configuration called an “axoneme” 2 central microtubules surrounded by 9 pairs of microtubules Cilia insert into basal bodies with 9 triplets of microtubules Epithelium Lecture Outline • Function and types of epithelium • Structure of epithelium • Types of covering/lining epithelium How is covering/lining epithelium categorized? Shape of superficial cells Number of cell layers Presence of specialized structures How is covering/lining epithelium categorized? Shape of superficial cells • Squamous: width > height (flattened) • Cuboidal: width = height (square, round) • Columnar: width < height (tall and slender) Epithelial cells have different shapes squamous cells are flat cuboidal cells are cute and boxy columnar cells are tall and regal How is covering/lining epithelium categorized? Shape of superficial cells Number of cell layers • Simple: one layer of cells • Stratified: two or more layers of cells • Pseudostratified: all cells contact basal lamina, but not all cells reach lumen Simple epithelium: one layer of cells Simple squamous epithelium Simple cuboidal epithelium Simple ciliated columnar epithelium Simple Squamous Epithelium Flattened squamous cells in a single layer Endothelium is simple squamous epithelium. It lines blood and lymphatic vessels. Simple Squamous Epithelium Flattened squamous cells in a single layer Mesothelium is simple squamous epithelium. It lines serous cavities (pleura, pericardium, peritoneum). Simple Cuboidal Epithelium Cuboidal cells in one cute layer Duct linings often have simple cuboidal epithelium, like this smallish duct in the pancreas. Stratified and pseudostratified epithelium Stratified squamous epithelium Pseudostratified columnar epithelium Stratified Squamous Epithelium Several layers of squamou s epitheli al cells Mucous membranes are composed of stratified squamous epithelium. Stratified Cuboidal Epithelium Cuboidal cells in a few layers Some ducts are lined by stratified cuboidal epithelium, like this larger duct in the pancreas. How is covering/lining epithelium categorized? Shape of superficial cells Number of cell layers Presence of specialized structures • Cilia • Microvilli • Keratin Pseudostratified Ciliated Columnar Epithelium goblet cell cilia Respiratory epithelium is pseudostratified columnar, with goblet cells and ciliated cells. Simple Columnar Epithelium goblet cell microvilli The epithelium of the small intestine is simple columnar, with goblet cells and absorptive cells with microvilli. Keratinized Stratified Squamous Epithelium Keratin Squamou s cells in several layers Keratin covers areas where skin is thin but needs protection. Non-Keratinized Stratified Squamous Epithelium No keratin! Squamou s cells in several layers Areas that are always moist (like the esophagus) are often lined by stratified squamous epithelium without a layer of keratin. Epithelium Lecture Outline • Function and types of epithelium • Structure of epithelium • Types of covering/lining epithelium • Types of glandular epithelium Types of Glandular Epithelia • Mucous goblet cell: unicellular gland • Exocrine gland: retains connection with surface epithelium; hormones secreted through ducts • Endocrine gland: no connection with surface epithelium; hormones secreted through blood Formation of glands from surface epithelium Exocrine gland Endocrine gland Disappearanc e of duct cells Blood vessel Secretory portion Secretory portion Methods of secretion in exocrine glands • Merocrine: secretory granules leave cell by exocytosis. Most common method. • Holocrine: Secretory product shed with entire cell. Example: sebaceous gland • Apocrine: secretory product shed with apical cytoplasm. Example: mammary gland Merocrine gland • Secretes by merocrine mode of secretion: exocytosis of product at apical end of cell. • By far the most common type of exocrine gland based on mode of secretion. Holocrine gland • Secretion occurs by disintegration of secretory cells. • Example: sebaceous glands. Apocrine gland • Secretion occurs by loss of large amount of apical cytoplasm. • Example: mammary glands. Mammary gland Note loss of apical portions of cytoplasm. Examples of glandular epithelial cells • Ion transporting cells • Serous secretory cells • Mucous secretory cells • Neuroendocrine cells • Myoepithelial cells Ion-transporting cells • Deep invaginations of basal cell membranes • Zonula occludens • Mitochondria in basal cytoplasm provide energy for ion transport • Examples: proximal tubules in kidney Serous secretory cells • Large rounded nucleus and abundant rough ER, Golgi and secretory granules • Examples: pancreatic acinar cells, serous cells in salivary glands Serous secretory cells Mucous secretory cells • Abundant rough ER, Golgi and secretory granules • Produce mucins (protective, lubricant glycoproteins) • Examples: mucous cells in stomach, goblet cells in small and large intestine, and mucous cells in salivary glands Goblet cells in small intestine Mucous secretory cells Neuroendocrine cells • Dense secretory granules in cytoplasm contain polypeptides and/or amines (like epinephrine and norepinephrine) • Scattered throughout the body Myoepithelial cells • Spindle-shaped cells found in glandular epithelial between basal lamina and basal cytoplasm • Embrace gland acini like an “octopus on a rock” • Contain actin: contract and squeeze out secretory product Epithelium Lecture Outline • Function and types of epithelium • Structure of epithelium • Types of covering/lining epithelium • Types of glandular epithelium