Introduction to Histology and Cell Structure PDF

Summary

This document provides an introduction to the study of cell structure and histology. It details the composition of the cell, including organelles (membranous and non-membranous) and inclusions, and how these are studied. It also discusses the function of each component.

Full Transcript

Introduction to
Histology and Cell
Structure
Histology Team,
Anatomy Department, College of Medicine,
King Saud University
Introduction to Histology & Cell Structure

Objectives:
By the end of this lecture, you should be able to:
Describe what histology is and how it is studied.
Describe the composition of the cell: describe the
Light Microscopic (L/M) and Electron Microscopic
(E/M) structure and the function of each
component:
1. Nucleus.
2. Cytoplasm:
a) Organelles: membranous and non-membranous.
b) Inclusions.
 INTRODUCTION

Histology is the microscopic
study of normal tissues.
Types of microscopes: LM & EM.
Organs are made of tissues and
tissues are made of cells.
Thin sections are cut and
mounted on glass slides. Sections
are stained with Hematoxylin (H)
and Eosin (E).
Nucleus is always blue (basophilic).
Cytoplasm may be red (acidophilic),
or blue (basophilic).
 THE CELL

It Is the structural
& functional unit of
all living tissues.
Cells have different
shapes & sizes.
THE CELL is made
of:
1. Nucleus
2. Cytoplasm
 NUCLEUS (L/M)
Number:
Cells may be mononucleated,
binucleated, or multinucleated.
Shape:
Usually takes the shape of the
cell.
Special shape:
Lobulated/Segmented: bilobed,
multilobulated.
S-shaped.
Indented.
Kidney-shaped.
Appearance:
Darkly or densely stained.
Vesicular or open-face.
 NUCLEUS (E/M)

Formed of:
1. Nuclear envelope
2. Chromatin
3. Nucleolus
4. Nucleoplasm
 1. Nuclear Envelope

A double membrane with
many pores.
1. Outer membrane.
2. Inner membrane.
3. Perinuclear space.
4. Nuclear pores: provide
communication between
nucleus and cytoplasm.

Perinuclear
space
 2. Chromatin
Formed of DNA.
L/M: Basophilic granules.
E/M: 2 Forms:
– Euchromatin: extended,
active chromatin (pale=
electron-lucent areas).
– Heterochromatin:
condensed, inactive
chromatin (dark =
electron-dense areas).
Functions:
– Carries genetic information.
– Directs protein synthesis.
 3. Nucleolus

L/M: It is a spherical
dark basophilic mass.
E/M: It is mostly a dark
mass (electron-dense)
not surrounded by a
membrane.
Usually one.
Function: formation of
ribosomal RNA (rRNA),
which is responsible for
protein synthesis in the
cytoplasm.
 4. Nucleoplasm

It is a semi-fluid
medium in which all the
contents of the nucleus
are embedded.
Function: Provides a
medium for movement
of 3 types of RNA
(ribosomal, messenger
and transfer RNA)
from the nucleus to the
cytoplasm.
 Functions of the Nucleus

The nucleus is the maestro
of the cell orchestra:
1. It is essential for the
vitality and division of
the cell.
2. It is the site of storage
of genetic information.
3. It is the site of
formation of the three
types of RNA.
Generated by AI.
 CYTOPLASM

is formed of:
1- ORGANELLES: They are
specialized structures,
ESSENTIAL for vital
processes of the cell.
2- INCLUSIONS: They are
not essential for vitality of
cells. May be present or
absent. Examples are lipids,
glycogen, and pigments like
melanin & lipofuscin.
3- CYTOSOL: The
intracellular fluid.
 CYTOPLASMIC ORGANELLES
A. Membranous:
1. Cell membrane.
2. Mitochondria.
3. Endoplasmic reticulum
(rough & smooth).
4. Golgi apparatus.
5. Lysosomes.
6. Secretory vesicles.
B.Non-membranous:
1. Ribosomes.
2. Centrioles.
3. Cilia & Flagella.
4. Filaments: Actin, Myosin
& Intermediate filaments.
5. Cytoskeleton: Actin,
Intermediate filaments &
Microtubules.
 Cell Membrane

A very thin membrane
that surrounds the cell.
L/M: Not visible.
E/M: appears as 2 dark
lines (electron-dense),
separated by a light one
(electron-lucent)
(trilaminar appearance).
Function: selective
barrier.
 Cell Membrane (Cont.)
Chemical Structure: Sugar chain of
glycoprotein

1- Phospholipid molecules:
arranged in 2 layers.
2- Protein molecules:
a) Peripheral protein.
b) Integral protein.
3- Carbohydrate molecules:
attached to either proteins or
lipids (glycoproteins and
glycolipids), forming the
surface or cell coat
(Glycocalyx):
a) Protection of the cell.
b) Cell recognition and
adhesion.
 Cell Membrane (Cont.)

Surface Specializations:
1. Microvilli:
Simple finger-like
cytoplasmic projections
of cell surface to
increase surface area.
Their core contains actin
filaments.
2. Stereocilia: long
microvilli (nonmotile).
3. Cilia: see later.
4. Flagella: see later.
 Cell Membrane (Cont.)
Lateral Specializations
(Intercellular Junctions):
1. Occluding (Tight) Junction:
seals the intercellular space. 1
2. Adhering Junction: fixes
adjacent cells together:
2a
a) Zonula Adherens.
b) Macula Adherens (Desmosome).
2b
3. Gap Junction: allows free
communication between cells.
3
N.B. When a combination of 1, 2a,
and 2b is present, this is called a
junctional complex.
 Mitochondria

L/M: They can be seen by special stains.
E/M:
Each mitochondrion is rod-shaped.
The wall is composed of 2 membranes.
The outer is smooth, the inner is folded
to form cristae (increase surface area).
The cavity is filled with mitochondrial
matrix, which contains enzymes. It also
contains its own DNA & RNA.
Functions:
1. Generation of ATP which is the source
of energy for the cell. They are called
the powerhouse of the cell.
2. They can form their own proteins and
undergo self-replication.
 Endoplasmic Reticulum (ER)

It is a system of
communicating
membranous
tubules, vesicles,
and flattened
vesicles (cisternae).
There are 2 types:
Rough (rER).
Smooth (sER).
 Rough Endoplasmic Reticulum

L/M: Its sites appear as
basophilic areas, due to the
ribosomes on the surface.
E/M: Membranous sheets
of flattened tubules &
vesicles with ribosomes on
the surface.
Functions:
1.Synthesis of proteins
by ribosomes on its
outer surface.
2.Transfer vesicles
transfer the formed
protein to Golgi.
 Smooth Endoplasmic Reticulum

L/M: Cannot be demonstrated.
E/M: Membranous tubules and
vesicles, with NO ribosomes on
the surface.
Functions:
1. Synthesis of lipids &
cholesterol.
2. Synthesis of steroid
hormones, e.g. cortisone.
3. Helps muscle contraction,
by acting as a calcium
pump.
4. Detoxification of drugs &
toxins.
 Golgi Apparatus
The Secretory Apparatus of the cell.
L/M: Its place appears as a negative
Golgi image in deeply basophilic cells.
E/M:
Consists of stacked saucer-shaped
flattened vesicles (saccules). Secretory

Each vesicle has two faces:
vesicles

Convex (forming) face,
receives transfer vesicles. Mature face

Concave (mature) face, Transfer
vesicles
forms secretory vesicles.
Functions:
Forming face

1. Sorting, modification &
packaging of proteins.
2. Secretory vesicle formation.
3. Formation of lysosomes.
 Lysosomes

The Digestive Apparatus of the cell.
Originate from the mature surface of
the Golgi apparatus, while their
hydrolytic enzymes are formed in the
rough endoplasmic reticulum.
L/M: They can be stained
histochemically for acid phosphatase.
E/M: Spherical membranous vesicles
with homogeneous (1ry lysosomes) or
heterogeneous (2ry lysosomes)
granular content.
Function:
Intracellular digestion of ingested
material or old organelles.
Defense against invading pathogens.
 Ribosomes

Small non-membranous particles
consisting of ribosomal RNA
(rRNA), combined with proteins.
Formed in the nucleolus.
L/M: Basophilic cytoplasm is
due to numerous ribosomes.
E/M: Appear as small electron-
dense granules:
Formed of 2 subunits (small &
large).
Free in the cytoplasm (may form
polyribosomes), or
Attached to rER.
Function: Protein synthesis.
 Centrioles

Two cylinders, perpendicular
to each other.
E/M: The wall of each
centriole is made of 9
triplets of parallel
microtubules, i.e. 27
microtubules.
Functions:
1. Essential for cell division
(form the microtubules
of the mitotic spindle).
2. Form the basal bodies of
cilia and flagella.
 Organelles Made of Microtubules
1. Centrioles: see before.
2. Cilia:
L/M: Hair-like striations on the
free surface of some cells.
E/M:
Basal body is similar to a centriole.
Shaft is formed of 9 peripheral
doublets and 2 central singlets of
microtubules, i.e. 20 microtubules.
Function: movement of particles
or fluids on the free surface of
the cells in one direction.
3. Flagella:
Longer and larger than cilia.
Form the tails of sperms.
Function: movement of sperms.
 Cytoskeleton
It is the supporting framework
(skeleton) of the cell.
Functions:
Maintains the shape of the cell.
Allows for dynamic processes:
Cell division.
Cell motility.
Endocytosis & exocytosis.
Movement of membranous
organelles within the cytoplasm.
Consists of:
1. Microfilaments (actin).
2. Intermediate filaments, e.g.
Keratin.
3. Microtubules.
 Recommended Textbooks

For Theoretical:
Color Textbook of Histology,
L.P. Gartner and J.L. Hiatt,
Latest Edition.
For Practical:
Di Fiore’s Atlas of Histology,
V.P. Eroschenko,
Latest Edition.
Thank You