Cell adhesion molecules are proteins located on cell surfaces that allow cells to adhere to each other and maintain tissue structure. The most important type are cadherins, which are calcium-dependent transmembrane proteins that connect to other cadherins on adjacent cells and link to the actin cytoskeleton. Cadherins help organize cell layers and tissues during development by promoting adhesion between similar cell types and separation between dissimilar ones. Other classes of cell adhesion molecules include integrins, IgCAMs, and selectins, which provide both calcium-dependent and calcium-independent adhesion between cells and the extracellular matrix.
2. Introduction
Cell adhesion molecules are present in plasma
membrane.
They help similar cells to adhere together.
They help in creating boundaries between different
tissues.
3. Introduction
Cells have differential affinity for other cells.
Cell adhesion molecules help cells in acting upon this
differential affinity.
Cells adhere to each other and arrange themselves
in the most stable (thermodynamically) form.
4. Introduction
The most important type of cell adhesion molecules
are the cadherins.
Other cell adhesion molecules include:
1. Integrins
2. IgCAMs (Immunoglobulin superfamily members)
3. Selectins
5. Cadherins
Cadherins are calcium-dependent adhesion
molecules.
Cadherins are trans-membrane proteins
They interact with other cadherins on adjacent cells.
The cadherins are anchored inside the cell by a
complex of proteins called catenins.
6. Cadherins
Cadherin proteins perform several related functions:
1. Their external domains serve to adhere cells together.
2. Cadherins link to and help assemble the actin
cytoskeleton.
3. Cadherins can serve as signaling molecules that
change a cell's gene expression.
8. Cadherins (Types)
Several types of cadherins exist, some of them are:
1. E-cadherins (Embryonic cells & Epithelial cells)
2. P- cadherins (Placenta)
3. N-cadherins (Neural cells)
4. R-cadherins (Retina)
9. Protocadherins
Protocadherins lack the attachment to the actin
skeleton through catenins.
Expressing similar protocadherins allows keeping
migrating epithelial cells together.
Expressing dissimilar protocadherins allows
separating tissues.
10. Cadherins
The action of cadherins is affected in two ways:
1. Quantitative (Ammount)
2. Qualitative (Type) - Expression of N-cadherin
separates the precursors of the neural cells from
the precursors of the epidermal cells.
11. Cadherins – With Other Systems
During development, the many cadherins often work
with other adhesion systems.
After fertilization, the embryo must adhere to and
embed itself in the uterine wall.
Here, the trophoblast cells (the outer cells that bind
to the uterus) are differentiated from the inner cell
mass (those cells that will generate the embryo and
eventually the mature organism).
12. Cadherins – With Other Systems
Trophoblast cells have several adhesion
molecules that anchor the embryo to the uterine wall:
E- and P-cadherins (these two molecule types
recognize similar cadherins on the uterine cells).
Integrin proteins (receptors) for the collagen and the
heparan sulfate glycoproteins of the uterine wall.
Modified glycosyltransferase enzyme that
extends out from the cell membrane and can bind to
specific carbohydrate residues on uterine glycoproteins.
13. Other Adhesion Molecules
Calcium Independent:
1. Integrins are transmembrane receptors that facilitate
cell - extracellular matrix (ECM) adhesion.
2. IgCAMs are immunoglobins and adhesion molcules, i.e.
VCAM and NCAM.
Calcium Dependent:
Selectins are single-chain trans-membrane
glycoproteins.