Adrenomedullin is expressed during rodent dental tissue development and promotes cell growth and mineralization.

Background Information: ADM (adrenomedullin) has pleiotropic effects, including regulation of inflammation, infection, angiogenesis, mineralized-tissue formation and development. Recently, we demonstrated up-regulation of the ADM transcript in diseased pulpal tissue while the protein is sequestered within the dentine extracellular matrix during dentinogenesis. The present study aimed to characterize ADM localization during rodent dental tissue development and determine its potential effects on dental cells.

Gene expression profiling of pulpal tissue reveals the molecular complexity of dental caries.

High-throughput characterisation of the molecular response of pulpal tissue under carious lesions may contribute to improved future diagnosis and treatment. To identify genes associated with this process, oligonucleotide microarrays containing approximately 15,000 human sequences were screened using pooled total RNA isolated from pulpal tissue from both healthy and carious teeth. Data analysis identified 445 genes with 2-fold or greater difference in expression level, with 85 more abundant in health and 360 more abundant in disease.

S100 and cytokine expression in caries.

The molecular immune response of the pulpal tissue during chronic carious infection is poorly characterized. Our objective was to examine the expression of potential molecular mediators of pulpal inflammation, correlate their levels with disease severity, and determine the cellular localization of key molecules. Results indicated that there was significantly increased transcriptional activity in carious compared to healthy pulp, and the increase correlated positively with disease severity.

Piezo-power microdissection of mature human dental tissue.

Isolation of sufficient quantities of pure populations of odontoblasts from healthy and diseased teeth will facilitate our understanding of dentinogenesis during development and repair. Here we describe a novel Piezo-power microdissection (PPMD) technique for the isolation of pure populations of odontoblasts and pulpal tissue from formalin-fixed, paraffin-embedded, mature, healthy and carious human teeth. Odontoblasts and pulpal tissue gene expression were subsequently studied in ribonucleic acid isolated from PPMD preparations using a semi-quantitative reverse transcription polymerase chain reaction approach.

Gene expression analysis in cells of the dentine-pulp complex in healthy and carious teeth.

Knowledge of the molecular events that occur in carious disease has so far been constrained due to difficulties in obtaining sufficient quantities of the dental tissues and cells involved. Our histological findings indicate that a pulp-odontoblast cellular complex can be obtained from carious and healthy human teeth when exposed to low-temperatures prior to pulpal extirpation and from rodent teeth processed at room-temperature. In contrast, pulpal tissue extracted from room-temperature processed human teeth and low-temperature processed rodent teeth resulted in the odontoblast layer remaining attached to the pulp chamber.