Akinao Nose

Expressed recombinant cadherins mediate cell sorting in model systems

Cadherins are cell-surface glycoproteins responsible for Ca2+-dependent cell-to-cell adhesion. E- or P-cadherin was transfected into L cells, which normally have little cadherin activity, and cellular aggregation of the resulting transfectants was observed to be a function of the cadherin molecule expressed. Transfected cells preferentially adhered to cells expressing the same cadherin subclass. Furthermore, in reconstituted embryonic lung tissue, E-cadherin-expressing L cells were associated with epithelial tubules expressing E-cadherin, while untransfected L cells associated with mesenchymal cells. These results provide the first direct evidence that the differential expression of cadherins can play a role in cell sorting in heterogeneous cell populations.

Localization of specificity determining sites in cadherin cell adhesion molecules

Cadherins are a group of homophilic intercellular adhesion molecules; each member of this family exhibits binding specificity. Here, we attempted to map the sites for the specificities of these molecules by analyzing adhesives selectivities of the cells that express chimeric and point-mutated E- and P-cadherin. The results showed that the amino-terminal 113 amino acid region is essential to determine the specificities, and within this region we could identify especially important sites in which amino acid substitutions altered the binding specificity of cadherins. We also found that the epitopes for antibodies capable of blocking cadherin action are located in this amino-terminal region.

Identification of a gene family of cadherin cell adhesion molecules

Cadherins are a group of functionally related glycoproteins responsible for the Ca2+-dependent cell-cell adhesion mechanism. They are divided into subclasses, such as E-, P- and N-cadherin, which are distinct in immunological specificities and tissue distribution. Cell aggregation experiments suggest that these molecules have subclass specificities in cell-cell binding and are involved in selective cell adhesions. Analysis of amino acid sequences deduced from the nucleotide sequences of cDNAs encoding cadherins demonstrated that they are integral membrane proteins and share common sequences throughout their entire length; average similarity in the sequences among them is in a range of 50-60%. This result provided evidence that cadherins constitute a gene family which encodes adhesion molecules with different specificities. We also showed that, when cells with little cadherin activity were transfected with cadherin cDNAs, they acquired the cadherin-mediated adhesion properties.

Expression Pattern of E‐ and P‐Cadherin in Mouse Embryos and Uteri during the Periimplantation Period

Periimplantation mouse embryos and uterine tissues were examined by means of immunohistochemistry for their expression of the Ca2+ dependent cell‐cell adhesion molecules, E‐ and P‐cadherin. E‐cadherin was detected in all embryonic cells during periimplantation stages, and also detected in the uterine epithelium. When blastocysts attached to the uterine epithelium, E‐cadherin was detected at implantation sites between the mural trophectoderm and the uterine epithelium on 5 day of pregnancy. P‐cadherin was first detected in the mural trophectoderm on 4.5‐day blastocysts, and then detected in the ectoplacental cone, giant cells and visceral endoderm from 5.5 day.

Cadherin-mediated cell-cell adhesion and neurogenesis

Cadherins constitute a molecular family which confers adhesive specificities on cells. Their expression is spatio-temporally regulated in embryos and the multiple types of cadherins are expressed in the nervous system. The inhibition of cadherin action with antibodies resulted in the perturbation of the histogenesis of neural tissues. The sites for determining the binding specificities of cadherins reside in their amino terminal 113 amino acid region. Possible roles of cadherins associated with these properties in neurogenesis are discussed.