This article reviews general aspects about the epithelial cell rests of Malassez (ERM). The historical and general morphological features of the ERM are briefly described. The embryological derivation of the ERM is presented as an important consideration in understanding the events associated with their origin and possible functional roles within the periodontal ligament. The ultrastructural description of the ERM is also included to complement the morphological characteristics which distinguish these cells as the unique epithelial element of the periodontal ligament. The unique ability of these cells to synthesize and secrete a number of proteins usually associated with cells of mesenchymal origin, rather than ectodermal origin, is discussed in light of their role in cementum repair and regeneration. Such considerations lead to our hypothesis that one of the functional roles of the ERM may lie not only their role in maintaining and contributing to the normal periodontal cellular elements and function but also contributing, in a significant manner, to periodontal regeneration.
Many vertebrate small nuclear RNA gene promoters contain an SPH motif in their distal control regions that can confer transcriptional stimulation by RNA polymerase II or RNA polymerase III. Using the human U6 gene SPH motif as a probe, we isolated a cDNA encoding human SPH-binding factor (hSBF) from a HeLa cell expression library. The coding region of hSBF is almost identical to ZNF143, a 626 amino acid, seven zinc finger protein of previously unknown function. Furthermore, the predicted amino acid sequence of hSBF is highly homologous to Xenopus laevis and mouse Staf proteins, that bind to SPH motifs and stimulate transcription of selenocysteine tRNA gene promoters. Recombinant hSBF expressed in vitro or from Escherichia coli bound specifically to the human U6 gene SPH motif as shown by DNase I footprinting and electrophoretic mobility shift assays using various mutant SPH sites as competitors. Antibodies prepared against recombinant hSBF inhibited assembly of native SBF-DNA complexes. Immunodepleted HeLa S100 transcription extract no longer supported elevated levels of transcription by RNA polymerase III from a U6 promoter containing an SPH motif, whereas addition of recombinant hSBF protein to the immunodepleted extract reconstituted stimulated transcription.
scite is a Brooklyn-based organization that helps researchers better discover and understand research articles through Smart Citations–citations that display the context of the citation and describe whether the article provides supporting or contrasting evidence. scite is used by students and researchers from around the world and is funded in part by the National Science Foundation and the National Institute on Drug Abuse of the National Institutes of Health.