Cellular adhesion

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Cellular adhesion

The process whereby cells interact and attach to other cells or to inanimate surfaces, mediated by interactions between the molecules on the surface of the cell. This process has been studied extensively in embryonic cells of higher organisms, where species and tissue specificity of adhesion has been shown. However, adhesion is a common feature in the life of most organisms.

Prokaryotic microorganisms do not frequently exhibit cell-to-cell interactions, but adhere to surfaces forming biofilms. In these interactions with a surface, some microorganisms cause corrosion of metal by adhering and producing corrosive acid by-products as a result of their metabolism. Adhesion of microorganisms to the cells of higher plants and animals is often a prerequisite for causing disease. Eukaryotic microorganisms often exhibit specific cell-to-cell interactions, allowing complex colonial forms and multicellular organisms to be constructed from individual or free-living cells. Adhesion between different plant cells is apparent in several cases, as in the interaction between a pollen grain and the stigma during fertilization.

Interactions between two cell surfaces may be quite specific, involving certain types of cell-surface protein molecules, or general, involving production of a sticky extracellular matrix that surrounds the cell, as frequently occurs in bacterial adhesion. Cellular adhesion is important in cellular recognition, in the generation of form or pattern, and possibly in regulation of cellular differentiation. See Cell (biology), Cell differentiation

All adhesion is mediated by the cell surface, either directly involving integral components of the plasma membrane, or indirectly through material excreted and deposited on the outside of the cell. Most theories of cellular adhesion suggest that cell-surface glycoproteins serve as ligands involved in attaching cell surfaces together. When a specific cell interacts with an identical cell, the attachment is said to be homotypic. Heterotypic adhesion involves interactions between different cell types. If the ligand-specific attachment involves interaction between identical cell-surface ligands, it is homophilic, and between two different ligands, heterophilic. The interaction between a pollen grain and the stigma cells described previously is an example of a heterotypic, heterophilic interaction.

Many studies of species and tissue specificity have been done with embryonic chick and mouse systems. In general, it would seem that homotypic adhesion is stronger that heterotypic adhesion. Also, tissue and species specific adhesion can be shown, but tissue specificity seems to be more frequent. For example, when dissociated embryonic neural retina of mouse and chick are mixed and allowed to aggregate, there is very little sorting, and mosaic tissue is formed. This is not true in all tissues, as heart and liver tissue show much greater species specificity than neural retina.

Throughout development, it is necessary for specific adhesion among cells to establish and maintain form. It is also important during development that cells change position, as occurs during gastrulation, or migrate, as with neural crest cells that move from the neural tube to various positions, forming ganglia. In these cases, it would seem to be necessary for certain cells to dissociate or alter their adhesive properties in response to the proper developmental cues. Throughout development, there are a series of primary and secondary inductions that affect cellular differentiation and pattern formation. These inductions depend on interactions between cell types having different histories, either due to being in different embryonic layers or due to interaction between cells derived from the same layer but previously differentiated. These changes in form are related to specific changes in cell-adhesion molecules.

References in periodicals archive ?
Charness was investigating the interaction between alcohol and the developing nervous system, he noted that the neuropathology observed in individuals with fetal alcohol spectrum disorder (FASD) strongly resembled that seen in individuals with various genetic syndromes attributable to mutations in the gene encoding the L1 neural cell adhesion molecule.
Loss of cell adhesion to the extracellular matrix results in endothelial cell death [7,8].
Of particular interest, the integrin cell adhesion receptor, beta-3 integrin (ITGB3) was upregulated in regionally metastatic melanoma.
M2 EQUITYBITES-July 21, 2015-Agenus licenses rights to antibodies targeting Carcinoembryonic Antigen Cell Adhesion Molecule 1
M2 PHARMA-July 21, 2015-Agenus licenses rights to antibodies targeting Carcinoembryonic Antigen Cell Adhesion Molecule 1
The addition of PMA, a protein kinase C (PKC) activator, blocked the effects of curcumin, leading to an increase in CCL2 expression as well as an increase in PC-3 cell adhesion, invasion and motility.
As well as the expected findings associated with changes in cell adhesion, we found that E-cadherin exerts an effect on a diverse range of biological functions within the cell.
Materials and surface scientists, physicists, biologists, and other contributors survey selected aspects of cell adhesion from the perspectives of fundamentals of cell adhesion, methods for studying it, surface treatments to control cell adhesion and behavior, and cell adhesion in medicine and therapy.
These changes include immune function suppression, increased angiogenesis and cancer cell adhesion, and inflammation.
The sticky synapse; cell adhesion molecules and their role in synapse formation and maintenance.
Vascular cell adhesion molecule-1 (VCAM-1), plays a crucial role in case of early inflammatory responses, including atherosclerosis.
The Thermo Scientific Nunc Hydrocell low-binding surface provides reduced cell adhesion and protein adsorption for maximum sample recovery in single-cell and cell-clusters in suspension.