Inhibition of transglutaminase activity in periodontitis rescues periodontal ligament collagen content and architecture.

Background And Objective: Periodontal disease (PD) afflicts approximately 50% of the population in the United States and is characterized by chronic inflammation of the periodontium that can lead to loss of the periodontal ligament through collagen degradation, loss of alveolar bone, and to eventual tooth loss. Previous studies have implicated transglutaminase (TG) activity in promoting thin collagen I fiber morphology and decreased mechanical strength in homeostatic PDL. The aim of this study was to determine whether TG activity influenced collagen assembly in PDL in the setting of periodontal disease.

SPARC and the N-propeptide of collagen I influence fibroblast proliferation and collagen assembly in the periodontal ligament.

The periodontal ligament (PDL) is a fibrous connective tissue that anchors tooth cementum into alveolar bone. Secreted protein acidic and rich in cysteine (SPARC) is a collagen-binding matricellular protein known to influence collagen fiber assembly in the PDL. In contrast, functional properties of the N-propeptide of collagen I, encoded in exon 2 of the COL1A1 gene, are poorly understood.

MicroRNAs and Periodontal Homeostasis.

MicroRNAs (miRNAs) are a group of small RNAs that control gene expression in all aspects of eukaryotic life, primarily through RNA silencing mechanisms. The purpose of the present review is to introduce key miRNAs involved in periodontal homeostasis, summarize the mechanisms by which they affect downstream genes and tissues, and provide an introduction into the therapeutic potential of periodontal miRNAs. In general, miRNAs function synergistically to fine-tune the regulation of biological processes and to remove expression noise rather than by causing drastic changes in expression levels.

Decreased Mechanical Strength and Collagen Content in SPARC-Null Periodontal Ligament Is Reversed by Inhibition of Transglutaminase Activity.

The periodontal ligament (PDL) is a critical tissue that provides a physical link between the mineralized outer layer of the tooth and the alveolar bone. The PDL is composed primarily of nonmineralized fibrillar collagens. Expression of secreted protein acidic and rich in cysteine (SPARC/osteonectin), a collagen-binding matricellular protein, has been shown to be essential for collagen homeostasis in PDL.

The effects of age and the expression of SPARC on extracellular matrix production by cardiac fibroblasts in 3-D cultures.

Fibrillar collagen is the primary component of the cardiac interstitial extracellular matrix. This extracellular matrix undergoes dramatic changes from birth to adulthood and then into advanced age. As evidence, fibrillar collagen content was compared in sections from neonates, adult, and old hearts and was found to increase at each respective age.