Introduction to Cells, Tissues, Organs and Body Systems PDF

Summary

This document provides an introduction to Cells, Tissues, Organs, and Body Systems. It describes different cell types, four tissue types, organs, and body systems along with details like the plasma membrane, nucleus, and cytoskeleton.

Full Transcript

Introduction to Cells, Tissues,
Organs and Body Systems
Powerpoint:
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There are over 100 types of cells, which group together to perform specific
functions

There are four types of tissues

Connective

Epithelial

Muscle

Nerve

Tissues regulate together to perform particular tasks

Organs are linked to look after inter-related functions

Body systems are collection of organs sharing a common function

Introduction to Cells, Tissues, Organs and Body Systems 1
 Image of a nucleated cell

Introduction to Cells, Tissues, Organs and Body Systems 2
 Diagram of the cell

The plasma membrane is the outer layer of the cell and encloses the cytosol
within it

It is a phospholipid bilayer (contains 2 layers of phospholipids)

Phospholipids have hydrophilic heads and hydrophobic tails

Sugars and proteins are embedded within the layer

It controls the entry and exit of substances into cells

The nucleus is the largest organelle, surrounded by a nuclear envelope. It
contains the genetic material of the cell in the form of chromosomes and
contains a nucleolus (involved in the synthesis of ribosomes)

Skeletal muscles are multinucleated

Red blood cells are anuclear

Introduction to Cells, Tissues, Organs and Body Systems 3
 Nervous system

Introduction to Cells, Tissues, Organs and Body Systems 4
 Immune & Lymphatic system

Introduction to Cells, Tissues, Organs and Body Systems 5
 Endocrine system

Cytoskeleton
The cytoskeleton is a network of protein fibres that give the cell shape and allow
it to move

Composed of

Microfilaments

Small fibres that provide structural support

Allow contractions

Microtubules

Larger fibres also involved in movement

Centrosome

Directs organisation of microtubules

Introduction to Cells, Tissues, Organs and Body Systems 6
 Pair of centrioles

Important in cell division

Cell extensions

Projections of the plasma membrane

Important for movement

Mitochondria are the powerhouse of the cells

They produce energy for the cell through aerobic respiration

Double-walled with cristae

High abundance in cell types with a high energy demand eg muscle, liver

Introduction to Cells, Tissues, Organs and Body Systems 7
 Electron microscopy of a mitochondrion

There are two types of endoplasmic reticulums: Smooth & Rough

Smooth

Responsible for synthesising lipids and steroid hormones

Drug detoxification

Rough

Studded with ribosomes

Responsible for protein
synthesis to be exported
from the cell

E.g. enzymes

Ribosomes are made up of RNA and protein

Introduction to Cells, Tissues, Organs and Body Systems 8
 Important in protein synthesis

Synthesise proteins from amino acids using RNA as the template

Can be found in the cytoplasm and on the RER

Cytoplasmic ribosomes make proteins for use in the cell

RER ribosomes make proteins for export

Golgi apparatus is a stack of membrane-bound sacs (cisternae)

Important for the export of proteins from the cell

Proteins are received from the ER where they are packaged into vesicles and
stored until needed

To exit the cell, vesicles move to the plasma membrane and fuse with it

Contents of vesicles are expelled from the cell by exocytosis

Golgi also produces lysosomes

image of a golgi apparatus

Lysosomes

Spherical vesicles that have been ‘pinched off’ the Golgi apparatus

Introduction to Cells, Tissues, Organs and Body Systems 9
 Contain enzymes that are used to breakdown large
molecules within the cell

Eg. DNA, RNA, proteins, carbohydrates etc.

Internal acidic pH (pH 5)

Once broken down, the smaller fragments can then be extruded from the cell or
recycled

Cytosol

Cytosol is the watery fluid that houses the organelles (pH 7)

Cytoplasm is the name given to the cell contents,
excluding the nucleus

E.g. cytosol and organelles

Examples of Microscopy techniques
Light microscopy (LM)
Fluorescence microscopy (FM)
Scanning electron microscopy (SEM)
Transmission electron microscopy (TEM)

Tissues
Tissues are large groups of similar cells grouped together to perform a particular
function.
Tissues are classified according to the size, shape and function of their constituent
cells.
Epithelial tissue
Lines surfaces of body cavities, tubes
Role in
transport
diffusion
secretion
Muscle tissue

Introduction to Cells, Tissues, Organs and Body Systems 10
 Generate motile forces through contraction

Skeletal muscle

Smooth muscle

Cardiac muscle

Nervous tissue

Communication

Interconnected networks that allow communication from the brain and spinal
cord to other parts of the body

Connective tissue

Basic type of supportive tissue

Structural role

Insulator role

Protective role

All tissues are composed of CELLS and EXTRACELLULAR MATRIX (ECM)

ECM is made by the cells and exported to fill the extracellular space

Scaffolding

Introduction to Cells, Tissues, Organs and Body Systems 11
 Extracellular matrix (ECM)

Differs between tissue types

e.g. epithelial tissue is formed from sheets of cells with little ECM present.
Connective tissue has a high amount of ECM and comparatively few cells
present

Roles of the ECM:

Scaffolding

Form junctions with cells

Regulate migration

Influence development and growth

Change morphology / function of cells

Epithelial tissue

Covers the body, lines body cavities and found in glands

Structure is closely related to functions of

Protection

Secretion

Absorption

Epithelial tissue can be simple (a single layer of cells) or stratified (multiple cell
layers).

Simple Stratified

Introduction to Cells, Tissues, Organs and Body Systems 12
 Simple epithelial tissue
Simple Squamous Epithelium

Flattened cells attached to a basement membrane

Lines the heart, blood vessels, lymph vessels, lung alveoli and collecting
ducts of the kidney nephron

Cuboidal

Cube-shaped cells attached to a basement
membrane

Introduction to Cells, Tissues, Organs and Body Systems 13
 Forms kidney tubules and some glands

Important role in secretion, absorption and/or
excretion

Columnar

Rectangular-shaped cells attached to a basement membrane

Found in stomach, small intestine, trachea, fallopian tubes

Can be ciliated

Introduction to Cells, Tissues, Organs and Body Systems 14
 Stratified Epithelial Tissue
Stratified Epithelium

Several layers of cells
Continual cell division in the basal layers
Main role is in protection from wear and tear

Introduction to Cells, Tissues, Organs and Body Systems 15
 Stratified epithelium can be

Squamous epithelium

Transitional epithelium

Stratified Squamous Epithelium

Keratinised stratified epithelium
Dry surfaces
Skin, hair and nails
Top layer of cells have no nuclei and contain
keratin

Non-Keratinised stratified epithelium

Moist surfaces, protects them from drying out

Introduction to Cells, Tissues, Organs and Body Systems 16
 Mouth, pharynx, oesophagus and vagina

Transitional Epithelium
Pear-shaped cells
Only found within the urinary tract

Pseudostratified Epithelial tissue

Pseudostratified Epithelium

Introduction to Cells, Tissues, Organs and Body Systems 17
 Gives the impression of multiple cell layers but each cell is attached to a basement
membrane
Pseudostratified columnar ciliated epithelium is found within the respiratory tract
“Mucociliary escalator”
In image, C = cilia and G= goblet cells

Connective Tissue

Most abundant tissue in the body
Consists of cells embedded within a surrounding jelly – extracellular-matrix (ECM)
ECM contains fibres to provide a support structure for the cells

Main functions of connective tissue are

Binding/structural support

Protection

Transport

Insulation

Types of connective tissue

Introduction to Cells, Tissues, Organs and Body Systems 18
 Loose (areolar) connective tissue
Adipose tissue
Reticular tissue
Dense connective tissue
Cartilage
Bone
(Blood)

Loose (areolar) connective tissue

Most abundant connective tissue type
Semi-solid matrix of collagen and elastin fibres containing fibroblasts, adipocytes,
mast cells and macrophages
Connects and supports other tissues
Eg. Under skin, between muscles

Adipose tissue

Areolar tissue matrix containing adipocytes
Adipocytes contain large fat globules
2 types:

1. White adipose tissue
About 20-25% BMI in normal, healthy adults
Acts as a thermal insulator and energy store

Introduction to Cells, Tissues, Organs and Body Systems 19
 2. Brown adipose tissue
Found in the new-born
Highly vascularised

Reticular Tissue

Found in lymph nodes and organs of the lymphatic system
Matrix consists of reticular fibres
Cells present are reticular cells and white blood cells

Dense Connective Tissue

Low cell numbers but high in fibre content
Can be FIBROUS TISSUE or ELASTIC TISSUE

Fibrous tissue

Collagen fibres in closely-packed bundles
Fibroblast cells sit between fibres
Eg. Tendon, ligament, periosteum

Introduction to Cells, Tissues, Organs and Body Systems 20
 Elastic tissue
Elastin fibres secreted by fibroblast cells
Tissue has high degree of recoil
Found in organs where change of shape is common
Eg. Blood vessels, lungs

Cartilage
Chondrocytes (cartilage cells) embedded in a collagen and proteoglycan matrix

Three types of cartilage in the body

Hyaline – ends of long bones (articulating cartilage). Acts as a shock
absorber

Fibrocartilage – intervertebral discs

Elastic fibrocartilage – outer ear

Introduction to Cells, Tissues, Organs and Body Systems 21
 (black is elastin)

Bone

Bone is a connective tissue

Bone cells (osteocytes) embedded within a mineralised collagen matrix.

Osteoblasts – lay down new bone matrix

Osteoclasts – remove bone matrix

Osteocytes – mature bone cells that reside within the matrix

Two types of bones

Compact

Spongy/cancellous

Bone heals really well because it has a huge blood supply

Bone is constantly re-growing

Introduction to Cells, Tissues, Organs and Body Systems 22
 Muscle tissue

Muscle tissue is able to contract and relax

Provides movement

Three types of specialised muscle

Skeletal

Smooth

Cardiac

Skeletal muscle

Striated (striped), multinucleated muscle fibres
Under voluntary control
Moves bones of the skeleton

Introduction to Cells, Tissues, Organs and Body Systems 23
Introduction to Cells, Tissues, Organs and Body Systems 24
 Smooth muscle
Non-striated
Under involuntary control
Useful in propelling contents along tubes by peristalsis (rhythmic contractions)
Found in gut tube, ureter etc.

Cardiac muscle

Striated

Introduction to Cells, Tissues, Organs and Body Systems 25
 Under involuntary control
Mononucleated
Makes up the walls of the heart
Intercalated discs between cells help propagate wave of contraction

A big difference between skeletal and smooth is that skeletal is striped while
smooth is not.

Furthermore, smooth muscle is involuntary control while skeletal muscle is
voluntary control

Nervous tissue

Two types of cells within the nervous system

Neurones
Excitable cells
Initiate, receive and transmit information

Glial cells
Non-excitable cells
Support the neurones

Introduction to Cells, Tissues, Organs and Body Systems 26
 More numerous than neurones
Astrocytes, oligodendrocytes, ependymal cells
and microglia

Neurones
Cell bodies are found within the Central Nervous System (CNS, Brain and spinal
cord)
Axons are found within the Peripheral Nervous System (PNS)

How do cells attach and communicate with each other?

Functional classification of junctions
Occluding junctions

Introduction to Cells, Tissues, Organs and Body Systems 27
 Anchoring junctions
Communicating junctions

Occluding Junctions
1. tight junctions (vertebrates only)
2. septate junctions (invertebrates
mainly)

Main role is to seal cells together to prevent molecules from leaking either to
another cell or across a boundary

Anchoring Junctions

Actin filament attachment sites
1. cell-cell junctions (adherens junctions)
2. cell-matrix junctions (focal adhesions)

Intermediate filament attachment sites
1. cell-cell junctions (desmosomes)
2. cell-matrix junctions (hemidesmosomes)

Main role is to mechanically attach cells (and their cytoskeletons) to adjacent
cells or to the extracellular matrix.

Communicating Junctions
1. gap junctions
2. chemical synapses
3. plasmodesmata (plants only)

Main role is to control the passage of signals (chemical or electrical) from one
cell to the other.

Introduction to Cells, Tissues, Organs and Body Systems 28
 Most cells are linked to their neighbours via gap junctions

Good examples are cardiac and smooth muscle cells

Visualising tissue
Tissue samples need to be processed to study them by microscopy
Technique known as histology
Tissue is sliced into thin sections and stained

Introduction to Cells, Tissues, Organs and Body Systems 29
Introduction to Cells, Tissues, Organs and Body Systems 30