Endocytosis
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Feb 09, 2016
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About This Presentation
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Slide Content
Presentatión toPic:
endocytosis
Presented By:
Ifrah Ishaq
University Of The Punjab,lahore.
endocytosis
Presented By:
Ifrah Ishaq
University Of The Punjab,lahore.
introdUction
In diffusion, dissolved particles (solutes) move down a
concentration gradient. Sometimes cells need to move
non-dissolved particles, or large amounts of material,
across the cell membrane. They can do this by two
processes: endocytosis and exocytosis.
concentration gradient. Sometimes cells need to move
non-dissolved particles, or large amounts of material,
across the cell membrane. They can do this by two
processes: endocytosis and exocytosis.
What is endocytosis and
exocytosis?
exocytosis?
Endocytosis: {Endo (within) cytosis (cell} : The process
by which a cell moves large amounts of material, or
non-dissolved particles, into its cytoplasm from the
outside environment.
Exocytosis: {Exo (exit) cytosis (cell)} : The process by
which large amounts of material, or large non-dissolved
particles, are moved from the cell’s cytoplasm to the
outside environment.
by which a cell moves large amounts of material, or
non-dissolved particles, into its cytoplasm from the
outside environment.
Exocytosis: {Exo (exit) cytosis (cell)} : The process by
which large amounts of material, or large non-dissolved
particles, are moved from the cell’s cytoplasm to the
outside environment.
hoW does endocytosis
Work?
Work?
Endocytosis is the case when a molecule causes the cell
membrane to bulge inward, forming a vesicle.
The three types of endocytosis are:
Receptor mediated endocytosis
Phagocytosis
Pinocytosis
membrane to bulge inward, forming a vesicle.
The three types of endocytosis are:
Receptor mediated endocytosis
Phagocytosis
Pinocytosis
recePtor mediated
endocytosis
endocytosis
Receptor mediated endocytosis (RME) is the type of
endocytosis. RME is an endocytotic mechanism in
which specific molecules are ingested into the cell. The
specificity results from a receptor-ligand interaction.
The interior portion of the receptors protein is embedded
in the membrane.
The protein Catherin coats the inside of the membrane in
the area of the pit. Receptors on the plasma membrane
of the target tissue will specifically bind to ligands on
the outside of the cell. An endocytotic process occurs
and the ligand is ingested.
endocytosis. RME is an endocytotic mechanism in
which specific molecules are ingested into the cell. The
specificity results from a receptor-ligand interaction.
The interior portion of the receptors protein is embedded
in the membrane.
The protein Catherin coats the inside of the membrane in
the area of the pit. Receptors on the plasma membrane
of the target tissue will specifically bind to ligands on
the outside of the cell. An endocytotic process occurs
and the ligand is ingested.
diagrammatically exPlanation
Ligand binds to membrane receptor.
Clathrin-
coated pit
Extracellular fluid
Intracellular fluid
To lysosome or
Golgi complex
Receptor-ligand migrates to
clathrin-coated pit.
Endocytosis
Vesicle loses
clathrin coat.
Ligands go to lysosomes
or Golgi for processing.
Transport vesicle
with receptors moves
to the cell membrane.
Transport vesicle
and cell membrane
fuse (membrane
recycling).
Exocytosis
Clathrin
Endosome
Receptors
and ligands
separate.
Receptor
4
1
2
3
4
9
8
7
6
5
Ligand binds to membrane receptor.
Clathrin-
coated pit
Extracellular fluid
Intracellular fluid
To lysosome or
Golgi complex
Receptor-ligand migrates to
clathrin-coated pit.
Endocytosis
Vesicle loses
clathrin coat.
Ligands go to lysosomes
or Golgi for processing.
Transport vesicle
with receptors moves
to the cell membrane.
Transport vesicle
and cell membrane
fuse (membrane
recycling).
Exocytosis
Clathrin
Endosome
Receptors
and ligands
separate.
Receptor
4
1
2
3
4
9
8
7
6
5
Steps Of Receptor Mediated
Endocytosis
Step 1:
Ligand binds to membrane receptor. Extracellular fluid
Intracellular fluid
Receptor
1
Endocytosis
Step 1:
Ligand binds to membrane receptor. Extracellular fluid
Intracellular fluid
Receptor
1
Step 2
Ligand binds to membrane receptor.
Clathrin-
coated pit
Extracellular fluid
Intracellular fluid
Receptor-ligand migrates to
clathrin-coated pit.
Clathrin
Receptor
1
2
Ligand binds to membrane receptor.
Clathrin-
coated pit
Extracellular fluid
Intracellular fluid
Receptor-ligand migrates to
clathrin-coated pit.
Clathrin
Receptor
1
2
Step 3
Ligand binds to membrane receptor.
Clathrin-
coated pit
Extracellular fluid
Intracellular fluid
Receptor-ligand migrates to
clathrin-coated pit.
Endocytosis
Clathrin
Receptor
1
2
3
Ligand binds to membrane receptor.
Clathrin-
coated pit
Extracellular fluid
Intracellular fluid
Receptor-ligand migrates to
clathrin-coated pit.
Endocytosis
Clathrin
Receptor
1
2
3
Step 4
Ligand binds to membrane receptor.
Clathrin-
coated pit
Extracellular fluid
Intracellular fluid
Receptor-ligand migrates to
clathrin-coated pit.
Endocytosis
Vesicle loses
clathrin coat.
Clathrin
Receptor
4
1
2
3
4
Ligand binds to membrane receptor.
Clathrin-
coated pit
Extracellular fluid
Intracellular fluid
Receptor-ligand migrates to
clathrin-coated pit.
Endocytosis
Vesicle loses
clathrin coat.
Clathrin
Receptor
4
1
2
3
4
Step 5
Ligand binds to membrane receptor.
Clathrin-
coated pit
Extracellular fluid
Intracellular fluid
Receptor-ligand migrates to
clathrin-coated pit.
Endocytosis
Vesicle loses
clathrin coat.
Clathrin
Endosome
Receptors
and ligands
separate.
Receptor
4
1
2
3
4
5
Ligand binds to membrane receptor.
Clathrin-
coated pit
Extracellular fluid
Intracellular fluid
Receptor-ligand migrates to
clathrin-coated pit.
Endocytosis
Vesicle loses
clathrin coat.
Clathrin
Endosome
Receptors
and ligands
separate.
Receptor
4
1
2
3
4
5
Step 6
Ligand binds to membrane receptor.
Clathrin-
coated pit
Extracellular fluid
Intracellular fluid
To lysosome or
Golgi complex
Receptor-ligand migrates to
clathrin-coated pit.
Endocytosis
Vesicle loses
clathrin coat.
Ligands go to lysosomes
or Golgi for processing.
Clathrin
Endosome
Receptors
and ligands
separate.
Receptor
4
1
2
3
4
6
5
Ligand binds to membrane receptor.
Clathrin-
coated pit
Extracellular fluid
Intracellular fluid
To lysosome or
Golgi complex
Receptor-ligand migrates to
clathrin-coated pit.
Endocytosis
Vesicle loses
clathrin coat.
Ligands go to lysosomes
or Golgi for processing.
Clathrin
Endosome
Receptors
and ligands
separate.
Receptor
4
1
2
3
4
6
5
Step 7
Ligand binds to membrane receptor.
Clathrin-
coated pit
Extracellular fluid
Intracellular fluid
To lysosome or
Golgi complex
Receptor-ligand migrates to
clathrin-coated pit.
Endocytosis
Vesicle loses
clathrin coat.
Ligands go to lysosomes
or Golgi for processing.
Transport vesicle
with receptors moves
to the cell membrane.
Clathrin
Endosome
Receptors
and ligands
separate.
Receptor
4
1
2
3
4
7
6
5
Ligand binds to membrane receptor.
Clathrin-
coated pit
Extracellular fluid
Intracellular fluid
To lysosome or
Golgi complex
Receptor-ligand migrates to
clathrin-coated pit.
Endocytosis
Vesicle loses
clathrin coat.
Ligands go to lysosomes
or Golgi for processing.
Transport vesicle
with receptors moves
to the cell membrane.
Clathrin
Endosome
Receptors
and ligands
separate.
Receptor
4
1
2
3
4
7
6
5
Step 8
Ligand binds to membrane receptor.
Clathrin-
coated pit
Extracellular fluid
Intracellular fluid
To lysosome or
Golgi complex
Receptor-ligand migrates to
clathrin-coated pit.
Endocytosis
Vesicle loses
clathrin coat.
Ligands go to lysosomes
or Golgi for processing.
Transport vesicle
with receptors moves
to the cell membrane.
Transport vesicle
and cell membrane
fuse (membrane
recycling).
Clathrin
Endosome
Receptors
and ligands
separate.
Receptor
4
1
2
3
4
8
7
6
5
Ligand binds to membrane receptor.
Clathrin-
coated pit
Extracellular fluid
Intracellular fluid
To lysosome or
Golgi complex
Receptor-ligand migrates to
clathrin-coated pit.
Endocytosis
Vesicle loses
clathrin coat.
Ligands go to lysosomes
or Golgi for processing.
Transport vesicle
with receptors moves
to the cell membrane.
Transport vesicle
and cell membrane
fuse (membrane
recycling).
Clathrin
Endosome
Receptors
and ligands
separate.
Receptor
4
1
2
3
4
8
7
6
5
Last Step
Ligand binds to membrane receptor.
Clathrin-
coated pit
Extracellular fluid
Intracellular fluid
To lysosome or
Golgi complex
Receptor-ligand migrates to
clathrin-coated pit.
Endocytosis
Vesicle loses
clathrin coat.
Ligands go to lysosomes
or Golgi for processing.
Transport vesicle
with receptors moves
to the cell membrane.
Transport vesicle
and cell membrane
fuse (membrane
recycling).
Exocytosis
Clathrin
Endosome
Receptors
and ligands
separate.
Receptor
4
1
2
3
4
9
8
7
6
5
Ligand binds to membrane receptor.
Clathrin-
coated pit
Extracellular fluid
Intracellular fluid
To lysosome or
Golgi complex
Receptor-ligand migrates to
clathrin-coated pit.
Endocytosis
Vesicle loses
clathrin coat.
Ligands go to lysosomes
or Golgi for processing.
Transport vesicle
with receptors moves
to the cell membrane.
Transport vesicle
and cell membrane
fuse (membrane
recycling).
Exocytosis
Clathrin
Endosome
Receptors
and ligands
separate.
Receptor
4
1
2
3
4
9
8
7
6
5
Uptake of cholesterol
The uptake of cholesterol by mammalian cells has
provided a key model for understanding
receptor-mediated endocytosis at the molecular level.
Cholesterol is transported through the bloodstream in
the form of lipoprotein particles, the most common of
which is called low-density lipoprotein, or LDL
The uptake of LDL by mammalian cells requires the
binding of LDL to a specific cell surface receptor that is
concentrated in clathrin-coated pits and internalized by
endocytosis.
The uptake of cholesterol by mammalian cells has
provided a key model for understanding
receptor-mediated endocytosis at the molecular level.
Cholesterol is transported through the bloodstream in
the form of lipoprotein particles, the most common of
which is called low-density lipoprotein, or LDL
The uptake of LDL by mammalian cells requires the
binding of LDL to a specific cell surface receptor that is
concentrated in clathrin-coated pits and internalized by
endocytosis.
phagocytosis
What is phagocytosis?
It is defined as ingestion of particles of
>0.5µm by cells.
It is defined as ingestion of particles of
>0.5µm by cells.
Phagocytosis is one type of endocytosis that occurs when
a cell uses its membrane to bring non-dissolved particles
solid particles into its cytoplasm. In phagocytosis, the cell
extends finger-like projections of its cell membrane,
called pseudopods, around a piece of solid material
outside of the cell.
The pseudopods that surround the solid object eventually
join to form a vacuole with in the cells cytoplasm. The
cell then releases chemicals into the vacuole. The
chemicals digest the solid particle into smaller particles
that may be used for energy or building material.
Phagocytosis is also often called “cell eating”.
a cell uses its membrane to bring non-dissolved particles
solid particles into its cytoplasm. In phagocytosis, the cell
extends finger-like projections of its cell membrane,
called pseudopods, around a piece of solid material
outside of the cell.
The pseudopods that surround the solid object eventually
join to form a vacuole with in the cells cytoplasm. The
cell then releases chemicals into the vacuole. The
chemicals digest the solid particle into smaller particles
that may be used for energy or building material.
Phagocytosis is also often called “cell eating”.
Who discovered phagocytosis?
•Ellie Ilya Metchnikoff discovered it in
1882.
•Received Nobel prize for the same in
1906
•Carl Fredrich Claus coined the term
Phagocytosis.
1882.
•Received Nobel prize for the same in
1906
•Carl Fredrich Claus coined the term
Phagocytosis.
Solid material is taken into the cell in a vesicle.
Examples
WBC remove bacteria and cell debris.
WBC remove bacteria and cell debris.
Amoeba engulfs food.
What are the cells involved in
phagocytosis ?
phagocytosis ?
Professional phagocytes
1.Neutrophils
2.Monocytes
3.Macrophages
4.Dendritic cells
5.Mast cells
6.Eosinophils
1.Neutrophils
2.Monocytes
3.Macrophages
4.Dendritic cells
5.Mast cells
6.Eosinophils
NoN ProfessioNals
Phagocytosis is not their main function , do not
have specific receptors.
Lymphocytes
NK and LGL cells (Large Granular lymphocytes)
Epithelial cells
Endothelial cells
Fibroblasts
Phagocytosis is not their main function , do not
have specific receptors.
Lymphocytes
NK and LGL cells (Large Granular lymphocytes)
Epithelial cells
Endothelial cells
Fibroblasts
How does it work?
Entry of the pathogen
Recognition & phagocytosis by tissue
phagocytes
SOS signals
Recruitment of phagocytes & inflammation
Entry of the pathogen
Recognition & phagocytosis by tissue
phagocytes
SOS signals
Recruitment of phagocytes & inflammation
diagram
PiNocytosis
Pinocytosis is another form of endocytosis in which
small particles are brought into the cell, forming an
invagination and then suspended with in small vesicles
and then it breaks down the particles. Pinocytosis is
also known as “cell drinking”.
Pinocytosis works just like phagocytosis but the only
difference other hand, pinocytosis is when he cell
engulfs already-dissolved or broken-down food.
small particles are brought into the cell, forming an
invagination and then suspended with in small vesicles
and then it breaks down the particles. Pinocytosis is
also known as “cell drinking”.
Pinocytosis works just like phagocytosis but the only
difference other hand, pinocytosis is when he cell
engulfs already-dissolved or broken-down food.
diagram
examPle
Human egg cell taking up nutrients from
surrounding cells.
Human egg cell taking up nutrients from
surrounding cells.
differeNtiate
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