Chapter 5
Simple Cuboidal Cells
Squarish or round cells
In this general category of Epithelia, some cells rest on top of other cells and do not contact the basement membrane
Statified Epithelium
What is the most widespread type of stratified epithelium?
Stratified Squamous
Simple Squamous cells
Thin, Scaly cells
Keratinized (cornified) Stratified Squamous Epithelia
This is found in the EPIDERMIS and is covered in a layer of dead compressed-cells. These cells are packed with the durable protein Keratin and coated with a water-repellent glycolipid. It keeps the skin surface relatively dry; retards water loss from the body and resists penetration by disease organisms
Simple Epithelium
This type of epithelium has only one layer of cells. Three types of simple epithelia are named for the SHAPE of their cells: Simple Squamous, Simple Cuboidal, an Simple Columnar
A group of similar cells and cell products that arise from the same region of the embryo and work together to perform specific structural or physiological roles in an organ
Tissue
This type of epithelium was named when it was thought to represent a transitional stage between stratified squamous and stratified columnar epithelium. We now know this is untrue but the name remains.
Transitional Epithelium
What is the fourth type of stratified epithelia?
Transitional Epithelium
True or False: Adipocytes also from in clusters around areolar tissue. The space between adipocytes is occupied by areolar tissue, reticular tissue and blood capillaries
True
There are three PIMARY GERM LAYERS. What are they?
Ectoderm, mesoderm and endoderm
Adipocytes
(Fat cells) Appear in small clusters in some fibrous connective tissues. When they dominate an area, the tissue is adipose tissue.
Hyaluronic Acid
A giant molecule up to 20 micrometers long. It is a viscous, slippery substance that forms a lubricant in joints and constitutes much of the jelly-like VITREOUS BODY of the eyeball
Human develop begins with
A single cell called a fertilized egg, that divides into smaller, identical cells.
The surface that faces away from the basement membrane towards the INTERNAL CAVITY (lumen) of an organ is the
APICAL SURFACE
Epithelia are..............:
AVASCULAR
Chondroitin Sulfate
Abundant in blood vessels and bones and gives cartilage it's relative stiffness. Other GAGs include heparin (anticoagulant) and Hyaluronic Acid
What are the FILTRATION functions of Epithelial tissue?
All substances leaving the blood are selectively filtered through the epithelium that lines the blood vessels; all urinary waste is filtered through the epithelia of the kidneys
Dense IRREGULAR connective tissue
Also has thick bundles of collagen and relatively little room for cells and ground substance, but collagen bundles run in RANDOM DIRECTIONS. This random arrangement allows tissues to resist unpredictable stresses
Adipose tissue
Also known as fat tissue, this is a tissue type in which ADIPOCYTES are the DOMINANT CELL TYPES
Ground substance of fibrous connective tissue
Amid the cells and fibers in some tissue sections, there appears to be a lot of empty space. In life, this space is occupied by a featureless ground substance.
What is a proteoglycan?
Another giant molecule. It is shaped somewhat like a bottle brush, with a central core of protein and bristle-like outgrowths made of GAGs. The entire proteoglycan may be attached to Hyaluronic Acid, which forms a massive molecular complex. Proteoglycans form thick colloids similar to gravy, gelatin and glue. This gel slows the spread of pathogenic organisms through tissues. Some proteoglycans are embedded in the plasma membranes of cells, attached to the cytoskeleton on the inside and other extracellular molecules in the matrix. They create a strong structural bond between cells and extracellular macromolecules that hold tissues together.
There are two types of loose fibrous connective tissue. What are they?
Areolar and Reticular
Some membranes and cobwebby tissues like................are sometimes mounted as.................
Areolar tissue; Spreads
The surface of an epithelial cell that FACES the basement membrane is it's
BASAL SURFACE
Between an epithelium and the underlying connective tissue is a layer called the
BASEMENT MEMBRANE
This contains collagen, glycoproteins, and other protein-carbohydrate complexes and blends into other proteins of connective tissue
Basement Membrane
This serves as an ANCHOR for the epithelium to the connective tissue. It controls the exchange of materials between the epithelium and underlying tissues. It also binds growth factors from below that regulate epithelial development
Basement Membrane
What are the general functions of Connective Tissue?
Binding of organs support physical protection immune protection movement storage heat production
Transport:
Blood transports gases, nutrients, wastes, hormones and blood cells
Areolar tissue is found in tissue sections from almost every part of the body, surrounds.............. and nerves and penetrates with them into small spaces of muscle, tendon and other tissue. Nearly every epithelium rests on a layer of areolar tissue, whose blood vessels provide the epithelium with nutrition, waste removal and ready supply of leukocytes. Leukocytes move freely about areolar tissue
Blood vessels
Movement
Bones provide the lever system for body movement, cartilages are involved in vocal cord movement and cartilages on bone surfaces ease joint movement
Support
Bones support the body; cartilage supports the ears, nose larynx and trachea; fibrous tissues form the framework for organs such as the spleen
Cartilage is produced by cells called
CHONDROBLASTS
In........or............, ground substance can be rubbery or stony in consistency. Generally contains water, gases, minerals, nutrients, wastes, hormones and other chemicals
Cartilage or Bone
Tissues are composed of
Cells and Matrix
What are the components of Fibrous Connective Tissue?
Cells, Fibers and Ground Substance
Plasma Cells
Certain lymphocytes turn into plasma cells when they detect foreign agents. Plasma cells then synthesize disease-fighting proteins called ANTIBODIES. Rarely seen except in the wall of intestines and inflamed tissues.
What is a fixative
Chemicals such as formalin that prevent decay. Post-fixation, most tissues are cut into sections typically only one or two cells thick
What is the most common Glcosaminoglycan?
Chondroitin Sulfate.
There are three types of FIBERS in fibrous connective tissue. What are they?
Collagenous, Reticular and Elastic
Epithelia usually lie on a vessel-rich layer of................., which furnishes them with nutrients and waste removal.
Connective Tissue
Cells of this tissue type occupy LESS space than an extracellular matrix. The cells are usually not in direct contact with each other, but are separated by expanses of the matrix.
Connective Tissues
The most abundant, widely distributed and histologically variable of the primary tissues.
Connective Tissues
Immune protection
Connective tissue cells attack foreign invaders and connective tissue fiber forms a "battlefield" under the skin and mucous membranes where immune cells can be quickly mobilized against disease agents
Most of this tissue type serves to bind organs to each other, form a structural framework for an organ or support and protect organs.
Connective tissues
One cut perpendicular to this is a................(C.S. or X.S) or a transverse section (T.S)
Cross-section
Stratified squamous epithelium
Deepest layer of cells are cuboidal to columnar and include mitotically active stem cells. Their daughter cells push toward the surface and become flatter (more scaly) as they migrate farther upward, until they die and flake off.
Two types of Dense Fibrous Connective Tissues. What are they?
Dense Regular and Dense irregular connective tissue
This type of primary germ layer is an outer layer that gives rise to the epidermis and nervous system
Ectoderm
This primary germ layer is the innermost layer that gives rise to mucous membranes of the digestive and respiratory tracts and digestive glands
Endoderm
What are the ABSORPTION functions of epithelial tissue?
Epithelia absorb chemicals from the adjacent medium; nutrients, for example, are absorbed through the epithelium of the small intestine.
What are the SENSATION functions of epithelial tissue?
Epithelia are provided with nerve endings that sense stimulation ranging from a touch on the skin to the irritation of the stomach.
A high rate of mitosis in Epithelial cells closely positioned to connective tissue allows for:
Epithelia can repair themselves QUICKLY: an ability of special importance in protective epithelia vulnerable to injury such as skin abrasions and erosion by stomach acid
What are the SECRETION functions of epithelial tissue?
Epithelia produce MUCUS, SWEAT, ENZYMES, HORMONES, and most of the body's other secretions. Glands are composed largely of epithelial tissue
What are the PROTECTION functions of epithelial tissue
Epithelia protect deeper tissues from invasion and injury. The epidermis of the skin, for example, is a barrier to infection and the inner lining of the stomach protects it's deeper tissues from stomach acid and enzymes.
What are the EXCRETION functions of epithelial tissue?
Epithelia void wastes from the tissues, such as CO2 across the pulmonary epithelium and bile from epithelium of the liver
This type of tissue consists of a sheet of closely adhering cells, one or more cells thick, with the upper surface usually exposed to the environment or to an internal space in the body
Epithelial Tissue
There are four primary tissue types. What are they?
Epithelial, Connective, nervous and muscular
This layer covers the body surface, lines body cavities, forms the external and internal linings of many organs and constitutes most gland tissues
Epithelium
Study of exfoliated cells is
Exfoliate Cytology
Loss of Stratified Squamous is called
Exfoliation (Desquamation)
Areolar loose connective tissue
Exhibits loosely organized fibers, abundant blood vessels and a lot of seemingly empty space. Possesses all six cell types previously discussed. It's fibers run in random directions and are mostly collagenous, but elastic and reticular are also present. Highly variable in appearance. Often difficult to distinguish from dense irregular connective tissue
This is the body's primary energy reservoir
Fat
Storage
Fat is the body's major energy reserve; bone is a reservoir of calcium and phosphorus that can be drawn upon as needed
Dense fiber connective tissue
Fiber occupies more space than cells and ground substance; appears closely packed in tissue sections
Matrix is composed of
Fibers and ground substance
What are the Fibrous connective tissue cell types?
Fibroblasts Macrophages Leukocytes Plasma Cells Mast Cells Adipocytes
The matrix of a cell is composed of
Fibrous proteins and usually a clear gel known as GROUND SUBSTANCE, tissue fluid, extracellular fluid or even interstitial fluid
This is the most diverse type of connective tissue, also called fibroconnective tissue
Fibrous tissue
Connective tissues include:
Fibrous tissue, adipose tissue, cartilage, bone and blood.
Mature connective tissues
Fibrous, adipose, supportive and fluid
There are four categories of mature connective tissue. What are they?
Fibrous, adipose, supportive and fluid connective tissue
Tissue specimens are preserved in a
Fixative
Mesenchyme
Form of embryonic connective tissue
Elastic tissue
Forms wavy sheets in large and medium ARTERIES. When the heart pumps blood into the arteries, sheets enable them to expand and relieve some pressure on smaller arteries downstream. When the heart relaxes, arterial wall springs back and keeps blood pressure from dropping too low between heartbeats.
Brown fat
Found mainly in FETUSES, INFANTS AND CHILDREN. Accounts for up to 6 percent of an infant's weight. Concentrated in fat pads in the shoulders, upper back and around the kidneys. Brown fat stores lipid in the form of multiple globules rather than one large one. Gets color from unusual abundance of blood vessels and enzymes in the mitochondria
Brown fat is:
HEAT GENERATING TISSUE! Numerous mitochondria, but oxidative pathway is NOT LINKED TO ATP SYNNTHESIS. When cells oxidize, energy is RELESED AS HEAT!
Most tissue samples under a microscope on a slide are thin slices called
Histological sections
These are artificially colored to bring out fine detail
Histological sections
The study of tissues and how they are organized into organs
Histology
Many anatomical structures are longer on one axis than another, the............and...............are good examples of this. A tissue cut on it's long axis is called a LONGITUDINAL SECTION (L.S)
Humerus and esophagus
Transitional Epithelium
Interesting type of stratified epithelium because it is really limited to the urinary tract.
Why is sectioning specimens necessary?
It is essential to allow light of a light microscope to pass through so the image is not confuse by too many layers of overlapping cells. Sections are then mounted on slides and artificially colored with histological stains used to enhance detail
There are two kinds of stratified squamous epithelia. What are they?
Keratinized and non-keratinized
First tissues begin when cells organize themselves into.........., first two and then three strata called PRIMARY GERM LAYERS
LAYERS
Once enclosed in the..............., the cells are called CHONDROCYTES.
Lacunae
Fibroblasts and their function in Fibrous connective tissue:
Large, fusiform or stellate cells that often show slender, wispy branches. They produce the fibers and ground substance that form the matrix of the tissue
Macrophages
Large, phagocytic cells that wander through connective tissues, where they engulf and destroy bacteria, other foreign particles and dead or dying cells of our own body. They also activate the immune system when they sense foreign matter called antigens. They arise from WHITE BLOOD CELLS called MONOCYTES or from the same stem cells that produce monocytes
What are glycosaminoglycans?
Long polysaccharides composed of unusual dissacharides called amino sugars and uronic acid. GAGs are negatively charged and tend to attract SODIUM and POTASSIUM ions, which in turn cause GAGs to absorb and retain water. They play an important role in regulating water and electrolyte balance of tissues
There are two broad categories of fibrous connective tissue. What are they? What differentiates the two?
Loose and Dense fibrous connective tissues. Determined based on relative abundance of fiber
Epithelial cells closest to the connective tissue typically exhibit a high rate of:
MITOSIS
What are the pathologies associated with deficiencies in Elastic tissue?
Marfan syndrome and artherosclerosis
This gives to muscle, bone, blood and other tissues. Most organs are composed of tissues derived from two or more primary germ layers
Mesenchyme
This is a gelatinous tissue made of FINE, WISPY COLLAGEN (PROTEIN) FIBERS and branching mesenchymal cells embedded in gel-like ground substance
Mesenchyme
Reticular tissue
Mesh of reticular fibers and fibroblasts. Forms the framework (Stroma) of organs such as lymph nodes, spleen, thymus and bone marrow. Space amid fibers is filled with BLOOD CELLS
This type of primary germ layer is a layer of loosely organized cells and eventually turns into a gelatinous tissue called MESENCHYME
Mesoderm
Heat production
Metabolism of brown fat generates heat in infants and children
Histology can also be called
Microscopic Anatomy
White fat (Or yellow)
More abundant than brown fat and is the only significant adipose tissue in the adult human body. Large, single central globule of triglyceride. The cytoplasm is otherwise restricted to a thin layer immediately beneath the plasma membrane, with the nucleus pushed against the edge of a cell. The triglyceride is dissolved out by most histological fixations; fat cells in most specimens look empty and somewhat collapsed
If left unstained:
Most tissue sections would appear pale gray
Loose fibrous connective tissues
Mostly space occupied by ground substance, which dissolves out of tissue during histological fixation and leaves empty space in prepared tissue sections.
Dense Regular Connective Tissue
Named for two properties: Collagen fibers are closely packed and leave relatively little open space. Fibers are PARALLEL to each other. This tissue is found especially in tendons and ligaments
Pseudostratified Columnar Simple Epithelia?
Not all Cells reach the surface and shorter cells are covered by taller ones. This epithelium looks stratified in most tissue sections, but under examination with TEM, shows that EVERY CELL reaches the basement membrane.
A section cut on a SLANT between a longitudinal and cross section is an
OBLIQUE SECTION
A............is an exam of exfoliated cells from the cervix for signs of uterine cancer
Pap Smear
These layers give rise to all of the body's MATURE TISSUES
Primary germ layers
Goblet Cells
Produce protective mucous coatings over mucous membranes. They have expanded apical ends filled with SECRETORY VESICLES; their product becomes mucus when it is secreted and absorbs water. The basal part of the goblet cell is a narrow stem that reaches the basement membrane
What are the functions of epithelial tissue?
Protection Secretion Excretion Absorption Filtration Sensation
Adhesive Glycoproteins
Protein-carbohydrate complexes that bind plasma membrane proteins to extracellular collagen and proteoglycans. They bind components of a tissue together and make paths that guide migrating embryonic cells to destinations in a tissue.
What is the fourth type of simple epithelia?
Pseudostratified Columnar
Stratified Epithelia
Range from 2-20 or more layers of cells, with some cells resting directly on others and only the deepest layer attached to the basement membrane
Stratified Columnar Epithelia
Rare and relatively minor in importance. Seen only in places where two other epithelial types meet. It is limited to regions of the pharynx, larynx, anal canal and male urethra
This tissue is laid out on the slide, like placing a small square of tissue paper
Spreads
Cartilage
Relatively stiff connective tissue with flexible rubbery matrix. The Adam's Apple is thyroid cartilage of the larynx
Epithelia are classified into two broad categories:
SIMPLE AND STRATIFIED
Chondroblasts
Secrete the matrix and surround themselves with it until trapped in small cavities called LACUNAE
Doing this to a tissue reduces a 3-D structure to a series of 2-D structures.
Sectioning
What is the function of Cartilage?
Shape and support the ears and nose and particularly enclose the larynx (VOICE BOX), trachea (WINDPIPE) and thoracic cavity
.............and............epithelia often have wineglass-shaped GOBLET CELLS
Simple Columnar; Pseudostratified Columnar
In this general category of Epithelia, every cell touches the basement membrane.
Simple Epithelium
What does sectioning mean?
Slicing
Three fourths of the stratified epithelia are named for shapes of the surface cells. What are they?
Stratified squamous, stratified cuboidal, stratified columnar.
Deeper cells of stratified epithelia may be a different shape than the..................
Surface Cells
Simple Columnar Cells
Tall, narrow cells
Binding of Organs
Tendons bind muscle to bone, ligaments bind one bone to another, fat holds kidneys and eyes in place and fibrous tissue binds skin to underlying muscle
Dense irregular connective tissue constitutes
The DERMIS, where it binds skin to underlying muscle and connective tissue. Forms protective capsule around organs such as kidneys, testes and spleen, tough fibrous sheath around bones, nerves and most cartilage
The best anatomical insight depends on:
The ability to deduce the 3-d structure of an organ from 2-d sections
Physical protection
The cranium, ribs and sternum protect delicate organs such as the brain, lungs and heart; fatty cushions protect kidneys and the eyes
Nonkeratinized
The tongue, esophagus, vagina and other internal membranes are covered by this. It lacks surface layer of dead cells. Provides a surface that is abrasion-resistant, but moist and slippery. Well-suited to resist stress by chewing and swallowing and sexual intercourse/childbirth
Avascular:
There is no room between the cells for blood vessels
Collagenous
These are fibers made from collagen that are tough, flexible and resist stretching. Collagen is the body's most abundant protein. In fresh tissue, collagenous fibers have a glistening white appearance, as seen in some tendons and some cells of meat. They are often called white fibers. In tissue sections, collagen forms COARSE, WAVY BUNDLES, often dyed pink, blue or green by stains. Tendons, ligaments and the DERMIS of the skin are made primarily from collagen. Less visibly, collagen pervades the matrix of cartilage and bone
Reticular Fibers
These are thin collagen fibers coated with glycoprotein. They form a sponge-like framework for organs such as the spleen and lymph nodes.
Elastic fibers
These are thinner than collagenous fibers and they branch and rejoin each other along their course. They are made of a protein called ELASTIN, whose coiled structure allows it to stretch and recoil like a rubber band. Elastic fibers account for the ability of skin, lungs and arteries to spring back after they are stretched.
Mast cells
These cells, found alongside blood vessels, secrete a chemical called HEPARIN, which inhibits blood clotting and one called HISTAMINE, which increases blood flow by dilating blood vessels
What differentiates the four tissue types from each other?
They all differ in types and functions of their cells, the characteristics of the matrix (extracellular material) that surrounds he cells and relative amount of space occupied by the cells and matrix. Example: In muscle and epithelium, cells are so close together that the matrix is scarcely visible, but in connective tissues, the matrix usually occupies more space than cells do.
True or False: Cartilage rarely exhibits blood vessels and even when it does, the blood vessels are just passing through without giving off capillaries to nourish the tissue. Therefore, nutrition and waste removal depend on solute diffusion through the stiff matrix. Because this is a slow process, chondrocytes have slow rates of metabolism and cell division, meaning cartilage heals slowly.
True
True or False: Cells and extracellular material of epithelium can be loosely compared to bricks and mortar of a wall. The EXTRACELLULAR MATERIAL ("mortar") is so thin, that it can barely be visible under a light microscope and cells appear close together.
True
True or False: Connective tissues vary greatly in vascularity, from rich networks of blood vessels in loose connective tissues to few or no blood vessels in cartilage.
True
True or False: Nearly all connective tissues contain fibers, but the fibers considered in tissues here are classified together because they are so conspicuous. Fibers are just one component of tissues, which also consist of cells and ground substance
True
True or False: Not all histological preparations are sections. Liquid tissues such as blood, soft tissues such as spinal cord may be prepared as SMEARS, in which the tissue is rubbed or spread across a slide rather than sliced
True
True or False: Stored fat is not necessarily stagnant. New triglycerides are always synthesized and stored as others are hydrolyzed and released into circulation. This means there is constant turnover of stored triglycerides with an equilibrium between synthesis and hydrolysis
True
True or False: The parallel arrangement of fibers is an adaption to the fact that tendons and ligaments are pulled in predictable directions by musculoskeletal stresses. With minor exceptions such as blood vessels and sensory nerve fibers, only cells in DENSE CONNECTIVE TISSUES ARE FIBROBLASTS, which are easily distinguished by slender, violet staining nuclei squeezed between bundles of collagen. Few blood vessels in Dense connective tissues, so tendons and ligaments are slow to heal
True
True or False: Within the two broad categories of Epithelia, being simple and stratified, there are four subcategories.
True
Why would the transitional epithelium be limited to the urinary tract?
Urine is usually acidic and hypertonic to intracellular fluid. It would tend to draw water out of cells via osmosis and kill them if there were nothing to protect the cells. Domed surface of cells in transitional epithelium have a unique protective property called UMBRELLA CELLS. On the upper surface of an umbrella cell, the outer phospholipid bilayer of the plasma membrane is thicker than usual and has dense patches called lipid rafts with embedded proteins called UROPLAKINS. Uroplakins are impermeable to urine and protect the epithelium, including the cytoplasm of the umbrella itself. Lipid rafts are connected to each other by hinges of ordinary plasma membrane. When the bladder is empty and relaxed, these plaques fold at the hinges and drop into the cell interior for storage, causing the cell to bulge upward. As the bladder fills, hinges open, plaques spread out over the surface to protect the cell and umbrella cell becomes thinner and flatter.
Ground substance
Usually has gelatinous or rubbery consistency resulting from 3 classes of large molecules: glycosaminoglycans, proteoglycans and adhesive glycoproteins. These absorb COMPRESSIVE FORCES and protect delicate cells from mechanical injury
The.............and some spinal ligaments are made of DENSE REGULAR connective tissue called ELASTIC TISSUE. In addition to densely packed collagen fibers, elastic tissue exhibits branching elastic fibers and more fibroblasts. These specific fibroblasts have larger, more conspicuous nuclei than most dense regular connective tissue
Vocal Cords
This fat type provides thermal insulation, anchors and cushions organs such as the eyeballs and kidneys and contributes to body contours such as hips and breasts
White Fat
Leukocytes, or White Blood Cells
White blood cells travel briefly in the bloodstream, then crawl out through the walls of small blood vessels and spend most time in connective tissues. Two of the most common types are NEUTROPHILS, which wander about attacking bacteria and LYMPHOCYTES, which react against bacteria, toxins and other foreign agents. Lymphocytes often form dense patches in mucous membranes.
There are two kinds of fat in humans. What are they?
White fat (or yellow) and Brown Fat
