Cytology PDF

Summary

This document is a study of cytology. It covers cell structures, functions, and organelles, including their role in the life of a cell. It details various components, such as the cell membrane, and the different types of transport mechanisms.

Full Transcript

Cytology\
By\
Dr. Esam El-Shwihy

- Light microscope

- Ordinary stain

- Basophilia: binding with the basic stain (hematoxylin)

- Acidophilia: binding with the acidic stain (eosin)

- Special stains

- Electron microscope

- Electron dense: dark

- Electron light (lucent): pale

- *4- Inclusions*: They consist of *storage* forms of various
*nutrients* and *pigments*. They are *not* *essential* for the
*life* of the cell.

- The Cytoplasm contains:

- *2- Organelles:* They are the *living* active structures that are
*essential* for the *life* of the cell.

- Nucleus is formed of:

- *1- Nuclear envelope.*

- *2- Nucleolus.*

- *3- Chromatin*

- CELL MEMBRANE

- \- All cells are bounded by a cell membrane (plasma-membrane or
plasmalemma).

- Functions :

- 1- It maintains the *structural* *integrity* of the cell.

- 2- It controls movements of substances in and out the cell
(selective *permeability*).

- 3- It can *recognize* antigens, foreign cells as well as altered
cells.

- Structure:

- [Light microscope (L/M): ]

- Cell membranes are *not* *visible* with the light microscope.

[Molecular structure (The fluid-mosaic model) :]

- The cell membrane consists mainly of:

*1. Phospholipids bilayer*

*2. Cholesterol*

*3. Proteins*


I\) Phospholipids bilayer:

\- It is formed of *double* layer.

\- Each layer is formed of:

Polar hydrophilic phosphate *heads*

Non-polar hydrophobic *tails* of long fatty acid chains

II\) Cholesterol molecules:

\- They fill the *gaps* between the fatty acid *tails* and *prevent*
their close *packing*.

III\) Membrane Proteins:

*Two* types:

*[A) Integral (intrinsic) proteins:]*

They are present *within* lipid dilayer.

They constitutes the *fluid-mosaic model for membrane structure.*

[*B) Peripheral Proteins:* ]

They are associated with the *surfaces* of the bilayer.

**[Cell coat (Glycocalyx)]**

\- It is associated with the ***external*** surface of cell membrane.

\- It consists of short chains of ***glycoprotein*** and
***glycolipids***.

\- Functions: ***recognition***, ***protection*** and intercellular
***adhesions***.


**[Passage of materials across cell membrane]**

1. **[Passive transport: ]**

The passage of molecules ***depends*** on their ***concentration***
gradients.

***No*** ***energy*** is needed during this process.

2. **[Active transport:]**

Certain ions and molecules are transported ***against*** their
***concentration*** gradient from low concentration to higher one (e.g.
sodium-potassium ***pump***).

***Energy*** is ***required*** in this process.

The process is carried out by ***carrier*** ***proteins***.

3. **[Vesicle-mediated transport:]**

\- The process includes either getting substances into the cell
(**[endocytosis]**) or getting them out of the cell
(**[exocytosis]**).

**1- Endocytosis: Three forms:**

***A) Pinocytosis (cell drinking):***

The cell ***entraps*** extracellular ***fluid*** or forming the
***pinocytotic vesicle***.

***C( Phagocytosis (cell eating):***

It means cell ***eating***.

It is the process of engulfing ***large*** ***particles*** e.g.
bacteria, microorganisms by ***specialized*** ***cells*** known as
***phagocytes as*** ***macrophages***.

***B) Receptor mediated endocytosis:***

Specific ***receptors*** for substances (***ligands***) are located at
the cell surface.

Binding of a ligand to its receptor forms ligand-receptor ***complex***
in shallow ***invagination*** of cell membrane called ***coated***
***pit***.

Coated pits become deep and ***pinch*** ***off*** the cell membrane are
known as ***coated*** ***vesicles***, which carry ligand-receptor
complex ***into*** the ***cell***. By endosomes, receptors are
***dissociated*** from ligands by the acidic pH. ***Recycling*** of
***receptors*** to cell membrane and ***digestion*** of ***ligand*** by
lysosomes occur.

**2- Exocytosis:**

It refers to ***release*** of cell products into the ***extracellular***
compartment.


**MITOCHONDRIA**

Mitochondria are ***membranous*** organelles.

**Structure:**

**- L/M:**

Mitochondria need ***special stains*** stained blue by ***iron***
***haematoxylin*** and green with ***Janus*** ***green.***

**- E/M:**

Each mitochondrion possesses a smooth ***outer** **membrane*** and
folded ***inner** **membranes**.*

The folds of the ***inner*** membrane are called ***cristae***.

The large space enclosed by the inner membrane is known as the
***matrix** **space***.

Protein particles *(**elementary** **particles**)* are attached to
cristal membrane by a short stem. The ***heads*** of elementary
particles has ***ATP*** ***synthetase*** activity. They form ATP.

1. ***The matrix space*** is filled with dense fluid composed of:

2. Enzymes of ***kreb's*** cycle (citric acid cycle).

3. ***Ribosomes***.

4. ***RNA:*** Transfer and messenger RNA.

5. ***DNA***.

6. ***Dense*** ***granules*** consisting of ***Ca+ ions***.

**ENDOPLASMIC RETICULUM (ER)**

- They are ***membranous*** organelles

- There are two types of ER:

- Both are ***continuous*** with each other.

**A- Smooth Endoplasmic Reticulum (sER)**

- **LM*:***

- **EM*:***

- **Function of sER:**

1. ***Detoxification*** of drugs.

2. ***Glycogen*** breakdown to glucose (glycogenolysis) and conversion
of glucose into glycogen (glycogenesis).

3. ***Lipid*** synthesis

4. Regulates the calcium level essential for muscular
***contraction***.

**B- Rough Endoplasmic Reticulum (rER)**

- **L/M*:***

It gives ***localized*** cytoplasmic ***basophilia***.

- **E/M:**

It consists of an interconnecting ***network*** of membranous
***tubules***, ***vesicles*** and flattened ***sacs***
(***cisternae***). Its outer surface is studded with ***ribosomes.***

- **Functions of rER:**

a. ***Secretory*** proteins.

b. ***Lysosomal*** enzymes.

- ***sER*** may be ***derived*** from rER.

**GOLGI APPARATUS**

It is a ***membranous*** cell organelle.

**Structure:**

- ***L/M:***

Golgi can be seen after ***special*** techniques e.g. ***silver***

- In ***secretory*** cells it is ***supranuclear***.

- In ***nerve*** cells it usually forms a network ***around*** the
nucleus.

- ***Negative Golgi Image:***

After ***H&E*** staining in cells with ***intensely*** ***basophilic***
cytoplasm such as ***plasma*** ***cells***, Golgi apparatus appears as,
clear ***unstained*** area ***near*** the ***nucleus*** called
***negative*** ***image*** of Golgi.



- ***E/M :***

a\) ***Cis-face*** (immature face) which is directed ***towards***
***rough*** ***endoplasmic*** ***reticulum***.

b\) ***Trans-face*** (mature or secretory face) is directed ***towards***
the ***plasmalemma***.

- **Functions of Golgi apparatus:**

***Modification*** and ***concentration*** of the newly synthesized
proteins.

**LYSOSOMES**

- Lysosomes are ***membranous*** cell organelles.

- They constitute an intracellular ***digestive*** ***system.***

- They contain a variety of ***hydrolytic*** ***digestive***
***enzymes.***

- Lysosomal ***enzymes*** are ***synthesized*** in ***rER*** and
transported in vesicles to Golgi complex.

- **Types of lysosomes:**

1. When primary lysosome interacts with ***pinocytotic*** vacuole it
gives ***multivesicular* *body***.

2. When primary lysosome interacts with ***phagocytic*** vacuole it
gives phagosome.

3. When primary lysosome interacts with ***autophagic*** vacuole it
gives ***autophagosome***.

- **Functions:**

1- Cellular ***defense*** by destruction bacteria.

2- ***Replace­ment*** of ead organelles.

3- ***Autolysis*** of tissue after death.

**CENTRIOLES**

- They are ***non*** ***membranous*** organelles.

**L/M:** Centrioles are ***paired*** cylinders arranged
***perpendicular*** to each other located ***near*** the ***nucleus***
and are called the ***centrosome**.*


**EM**

- Its wall is made up of ***nine*** ***bundles*** of
***microtubules***, each bundle consists of ***three*** microtubules
(***triplets***).

**Function:**

1. They form the ***mitotic*** ***spindle*** during cell division.

2. They form ***basal*** ***bodies*** of the cilia and flagella.

**CILIA AND FLAGELLA**

- ***Non***-***membranous*** organelles.

- **Sites:** Cilia are present in some cells of ***respiratory***
system, female and male ***genital*** tracts. Flagellum is only
present in the sperm in human.

Each cilium or flagellum is composed of basal body and shaft (axoneme).

1. The ***basal*** ***body*** is a typical ***centriole*** (nine
triplets of microtubules).

2. The ***axoneme:***

The axoneme is formed of ***outer** **nine** **doublets*** of
microtubules surrounding ***central*** ***two** **singlets***
microtubules.

***Radial** **spokes*** projecting from subunit ***A*** of the doublet
toward the ***central*** ***sheath***.

***Two*** ***dynein*** ***arms*** has ***ATPase*** activity radiates
from ***A*** subunit to ***B*** subunit of adjacent doublet. ***Each***
***A*** subunit has.

**CELL INCLUSIONS**

- Inclusions are ***non***-***living*** components of the cell they
include:

**I- Stored foods:**

1. ***Fat** droplets* are stored mainly in ***fat*** ***cells***.

2. ***Carbohydrates*** are stored in the form of ***glycogen*** which
is ***abundant*** in ***liver*** ***cells*** and ***muscle***
***fibers***.

**II- Pigments:**

\- Pigments are materials with ***natural*** ***colors*** and are
classified into [two] types.

***1- Exogenous pigments: [ ]***

They enter the body from ***outside*** e.g.

- ***Carotenes*** (yellowish or red pigment) are present in some
***vegetables*** as carrots and they are soluble in fat giving it
its color.

- ***Minerals*** e.g. ***lead*** (***blue***) & ***silver***
(***grey***).

- ***Carbon:*** ***black*** particles that are prominent in the
***lung*** being phagocytosed by ***pulmonary*** ***macrophages***.

- ***Tattoo***, a process by which pigments are introduced into deep
layers of ***skin***.

***2- Endogenous pigments:***

- They are formed ***inside*** the body e.g.

- ***Hemoglobin*** (cause ***red*** color of the blood)

- ***Melanin**,* the ***dark*** ***brown*** or ***black*** pigment
found in the ***skin***, ***hair*** and ***eye***.

- ***Lipofuscin** **pigment**:* It is ***yellowish*** ***brown***
granules that increase with ***age***.

**INTERPHASE NUCLEUS**

**(Non-dividing nucleus)**

1. ***Nuclear envelope.***

2. ***Chromatin***.

3. ***Nucleolus or nucleoli.***

4. ***Nucleoplasm or karyoplasm.***


**NUCLEAR ENVELOPE**

- It consists of two parallel membranes, each is a unite type membrane
of about 7.5nm thickness separated by a 10-30nm space known as
perinuclear space.

- The ***inner*** nuclear membrane is associated with the
***peripheral*** ***chromatin***.

- The ***outer*** nuclear membrane has ***ribosomes*** and is often
***continuous*** with rough endoplasmic reticulum (***rER***).

- The nuclear envelope is not continuous, but form ***nuclear***
***pores***.

**CHROMATIN**

- It is the hereditary material of the cell

- In the interphase nucleus, chromatin has two forms:

A\) Euchromatin (extended) which is the active form.

B\) Heterochromatin (condensed) which is the inactive form.

- Structure of chromatin:

**NUCLEOLUS**

- It is a dense ***non-*** ***membranous*** structure located in the
nucleus.

- It is ***observed*** only during ***interphase*** and
***disappears*** during cell ***division***.

**L/M**, it is deeply ***basophilic*** due to its content of
(***RNA***).

**E/M**: the nucleolus consist of three distinct components, which are:

- ***Pars amorpha:*** ***pale--staining*** ***centers*** with fine
threads of chromatin representing ***chromosomes*** 13, 14, 15, 21
and 22 in humans ***(nucleolar organizers)*** encoding rRNA.

- ***Pars fibrosa:*** Containing filaments of newly formed ***rRNA***
***surrounding*** the fibrillar center.

- ***Pars granulose*** (nucleolenema) having granular appearance and
it is the site in which ***ribosomal*** ***subunits*** are
assembled.


**GOOD LUCK**