Everything about Cell Adhesion totally explained
Cellular adhesion is the binding of a
cell to another cell or to a
surface or
matrix. Cellular adhesion is regulated by specific
cell adhesion molecules that interact with molecules on the opposing cell or surface. Such adhesion molecules are also termed "receptors" and the molecules they recognize are termed "
ligands" (and sometimes "counterreceptors").
Since
cells are not often found in isolation, rather they tend to stick to other cells or non-cellular components of their environment, a fundamental question is: what makes cells sticky? Cell adhesion generally involves
protein molecules at the surface of cells, so the study of cell adhesion involves
cell adhesion proteins and the molecules that they bind to.
Cytoskeletal interactions
For a cell adhesion protein like the one shown in the diagram, the intracellular domain binds to protein components of the cell's
cytoskeleton. This allows for very tight adhesion. Without attachment to the cytoskeleton, a cell adhesion protein that's tightly bound to a ligand would be in danger of being
hydrolyzed by extracellular
hydrolytic enzymes. This will tear away the layer unneeded for molecular distibution of arion cells. Then from out of the adhesion protein from the fragile cell membrane. Often the connection between the cell adhesion proteins and the cytoskeleton isn't as direct as shown in the diagram. For example,
cadherin cell adhesion proteins are typically coupled to the cytoskeleton by way of special linking proteins called "
catenins".
Adhesion in Prokaryotes
Prokaryotes have adhesion molecules usually termed "
adhesins". Adhesins may occur on
pili (fimbriae),
flagellae, or the cell surface. Adhesion of bacteria is the first step in colonization and regulates
tropism (tissue- or cell-specific interactions).
Adhesion in Viruses
Viruses also have adhesion molecules required for viral binding to host cells. For example,
influenza virus has a
hemagglutinin on its surface that's required for recognition of the
sugar sialic acid on host cell surface molecules.
HIV has an adhesion molecule termed
gp120 that binds to its ligand
CD4, which is expressed on
lymphocytes.
Adhesion in Eukaryotes
Eukaryotic
protozoans also express multiple adhesion molecules. An example of a pathogenic protozoan is the
malarial parasite (
Plasmodium falciparum), which uses one adhesion molecule called the circumsporozoite protein to bind to liver cells, and another adhesion molecule called the merozoite surface protein to bind
red blood cells. In
human cells, which have many different types of adhesion molecules, the major classes are named
integrins,
Ig superfamily members,
cadherins, and
selectins. Each of these adhesion molecules has a different function and recognizes different ligands. Defects in cell adhesion are usually attributable to defects in expression of adhesion molecules.
Human Genetic Diseases
There are the human
genetic diseases caused by inability to express a specific adhesion molecule. An example is
leukocyte adhesion deficiency-I (LAD-I), where patients don't express the β2-integrin subunit precursor. This integrin is required for
leukocytes to adhere to the blood vessel wall during
inflammation in order to fight infection. The leukocytes from LAD-I patients fail to adhere and patients exhibit serious episodes of
infection that can be life threatening.
Differential Adhesion Hypothesis
The
differential adhesion hypothesis (sometimes called the "thermodynamic hypothesis") is a theory of
cell adhesion advanced by
Malcolm Steinberg in 1964 to explain the mechanism by which
heterotypic cells in
mixed aggregates sort out into
isotypic territories. The DAH postulates that tissues are viscoelastic liquids, and as such possess measurable tissue surface tensions. These surface tensions have been determined for a variety of tissues, including embryonic tissues and cell lines. The surface tensions correspond to the mutual sorting behavior: the tissue type with the higher surface tension will occupy an internal position relative to a tissue with a lower surface tension (if these tissues can interact with each other through their adhesion machinery). Quantitative differences in homo and heterotypic adhesion are supposed to be sufficient to account for the phenomenon without the need to postulate cell type specific adhesion systems: fairly generally accepted, although some
tissue specific cell adhesion
molecules are now known to exist.
Further Information
Get more info on 'Cell Adhesion'.
|
External Link Exchanges
Do you know how hard it is to get a link from a large encyclopaedia? Well we're different and will prove it. To get a link from us just add the following HTML to your site on a relevant page:
<a href="http://cell_adhesion.totallyexplained.com">Cell adhesion Totally Explained</a>
Then simply click through this link from your web page. Our crawlers will verify your link, extract the title of your web page and instantly add a link back to it. If you like you can remove the words Totally Explained and embed the link in article text.
As long as your link remains in place, we'll keep our link to you right here. Please play fair - our crawlers are watching. Your site must be closely related to this one's topic. Any kind of spamming, dubious practises or removing the link will result in your link from us being dropped and, potentially, your whole site being banned. |
