What is Epithelium?
To define epithelium, let us say it is a complex of specialized cellular organizations arrayed into sheets without important intercellular substance that covers the body's internal and external surface and secreting organs. In simple terms, epithelial meaning is a sheet of cells covering the body surface or the lines of a body cavity. Epithelium occurs in both plants and animals. However, epithelial cells can be cuboidal, flat, or cylindrical and are arranged in either one or several layers depending on their function. Epithelial tissue occurs in two different forms- covering and lining epithelium covering both the outer and inner body surfaces of most organs and glandular epithelium, forming most of the body glands.
What are the Layers of Epithelium?
There are two significant layers of epithelium- simple epithelia and stratified epithelia.
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Simple epithelia comprise a single layer of cells, with each cell in direct contact with the basement membrane. Simple epithelium tissue is composed of elongated columnar cells.
These cells are often found in places where absorption and filtration are necessary, like lining most of the body's cavities, such as the lining of the female ovary and blood vessels.
Stratified epithelia comprise several layers of cells present on the basal surface and remain attached to the basement membrane. However, they do not come in contact with the basement membrane. These cells offer better protection from external threats, such as harmful toxins. Stratified tissues are found where protection is essential, like the lining of the oesophagus and the lining of the urethra and bladder.
What are the Various Parts of Epithelium?
Based on the cell shape, there are three parts of epithelium-
Squamous Epithelial Cells: Squamous epithelium is composed of flat, scale-like irregular cells with centrally located disc-shaped nuclei. There are two types of squamous epithelia: simple squamous and stratified squamous epithelium.
The simple squamous epithelium allows the passage of materials through diffusion or filtration and also secretes mucus. The primary function of stratified squamous epithelium is the protection of the body's internal against abrasion.
Cuboidal Cells: Cuboidal Epithelium is cube-shaped cells with spherical, centrally located nuclei. There are two types of cuboidal epithelium: simple cuboidal epithelium and stratified cuboidal epithelium. The primary function of simple cuboidal cells is secretion and absorption, while stratified cuboidal epithelium serves as a protective tissue.
Columnar Cells: Columnar cells are composed of taller and thinner column-like cells. The nuclei of columnar cells are commonly oval, elongated from top to bottom, and located near the basal surface. There are three primary types of columnar epithelia: simple columnar, pseudostratified columnar, and stratified columnar epithelium. The simple columnar cells secrete mucus and enzymes and absorb nutrients, while pseudostratified columnar secrete and move mucus. The primary function of stratified columnar epithelium protects the body internal against abrasion and secretes mucus.
Functions of Epithelial Tissue
Epithelial tissue definition states that it is a layer of cells closely bound to one another to form continuous sheets that cover surfaces that come into contact with foreign substances. Therefore, the functions of epithelial tissue are as follows-
Protection of the underlying tissues
Secretion through the release of molecules from cells
Absorption through bringing small molecules into cells
Diffusion through the movement of molecules down their concentration gradient
Filtration occurs through the passage of small molecules through a sievelike membrane
Sensory reception
Interesting Characteristics about Epithelial Tissue
Cellularity: Epithelium is composed entirely of cells separated by a minimal amount of extracellular materials, mainly projections of their integral membrane proteins into the narrow spaces between the cells.
Support by Connective Tissue: An underlying connective tissue layer supports all epithelial sheets in the body.
Specialized Contacts: This characteristic states that the adjacent epithelial cells directly join at many points by particular cell junctions.
Regeneration: Another characteristic feature is that epithelial tissues hold a high regenerative capacity. While some epithelia are exposed to friction, others are destroyed by hostile substances present in the external environment, such as bacteria, acids, and smoke. Their surface cells rub off. However, if the epithelium receives sufficient nutrition, it can quickly replace the lost cells through cell division through mitosis.
Polarity: All epithelia have a free apical surface that is attached to the basal surface. However, the function and the structure of the apical and basal surfaces differ by a characteristic known as polarity. The epithelia's apical surface abuts the open space of a gland, tube, cavity, or hollow organ. In contrast, the basal surface rests on a thin supporting sheet of the basal lamina, which is part of the basement membrane.
FAQs on Epithelium
1. What is epithelial tissue and what are its main functions?
Epithelial tissue is one of the four basic types of animal tissue, forming continuous sheets of tightly packed cells. It covers all external body surfaces, lines internal organs and cavities, and forms glands. Its primary functions include protection from injury and bacteria, secretion of hormones and enzymes, absorption of nutrients, filtration, and sensory reception.
2. What are the main types of epithelial tissues found in the body?
Epithelial tissues are classified based on cell shape and the number of layers. The main types are:
- Squamous Epithelium: Composed of thin, flat cells, ideal for diffusion and filtration. Found lining the air sacs of the lungs and blood vessels.
- Cuboidal Epithelium: Cube-shaped cells involved in secretion and absorption, commonly found in kidney tubules and glands.
- Columnar Epithelium: Tall, column-like cells, often specialised for absorption and secretion, lining the digestive tract.
3. How does the structure of epithelial tissue help with absorption and secretion?
For absorption, epithelial cells in the intestine have microvilli—tiny, finger-like projections that vastly increase the surface area for absorbing nutrients. For secretion, groups of epithelial cells form glands that produce and release substances. For example, glandular epithelium in the stomach lining secretes digestive juices.
4. Why are epithelial cells packed so tightly together with very little space between them?
Epithelial cells are packed tightly to form a continuous, protective barrier. This arrangement, secured by structures like tight junctions, prevents pathogens, toxins, and fluids from leaking through. It effectively separates the underlying tissues from the external environment or internal cavities, which is crucial for protection and containment.
5. What is the difference between simple and stratified epithelium, and why is this difference important?
The key difference is the number of cell layers. Simple epithelium consists of a single layer of cells, making it thin and ideal for processes like diffusion and absorption where substances must pass through quickly. In contrast, stratified epithelium has multiple layers of cells, making it thick and durable. This structure is essential for protection against abrasion and physical stress, such as in the skin.
6. What is the role of the basement membrane in epithelial tissue?
The basement membrane is a thin, non-cellular layer that anchors the epithelial tissue to the underlying connective tissue. It provides structural support and also acts as a selective filter, controlling the passage of nutrients and waste between the two tissue types, especially since epithelial tissue is avascular (lacks its own blood vessels).
7. How is glandular epithelium different from other types of epithelium?
While most epithelial tissues primarily form coverings and linings, glandular epithelium is specifically adapted to produce and secrete substances. The cells of this tissue group together to form glands. These can be exocrine glands (secreting substances like sweat or saliva into ducts) or endocrine glands (secreting hormones directly into the bloodstream). This secretory function is its main distinguishing feature.
