Experimental periodontitis in Msx2 mutant mice induces alveolar bone necrosis.

Background: Msx2 homeoprotein is a key transcription factor of dental and periodontal tissue formation and is involved in many molecular pathways controlling mineralized tissue homeostasis such as Wnt/sclerostin pathway. This study evaluated the effect of Msx2-null mutation during experimental periodontitis in mice.

Methods: Experimental periodontitis was induced for 30 days in wild-type and Msx2 knock-in Swiss mice using Porphyromonas gingivalis infected ligatures.

In Situ Hybridization in Mineralized Tissues: The Added Value of LNA Probes for RNA Detection.

In situ hybridization (ISH) is one of the fundamental methods in developmental biology and neurobiology. Their first ISH protocols were reported in 1969 (Gall and Pardue, Proc Natl AcadSci USA 63:378-83, 1969). Since several decades, ISH based on the specific hybridization of 100-2000 nucleotides long probes enabled the localization of DNA/RNA sequences in tissues and cells with high cellular resolution.

Methods for In Situ Protein Visualization in Dental Mineralized Tissues.

Immunohistochemistry (IHC) is a technique based on the specificity of antibody-antigen principle used commonly to detect antigens in tissue sections. The immune labeling can be performed in paraffin sections, cryostat sections, and ultrathin sections and can be observed in light confocal and transmission electron microscopy. However, the use of immunohistochemical techniques for the study of mineralized tissues has been a challenge for decades (Berdal et al.

Amelogenesis imperfecta in familial hypomagnesaemia and hypercalciuria with nephrocalcinosis caused by CLDN19 gene mutations.

Background: Amelogenesis imperfecta (AI) is a group of genetic diseases characterised by tooth enamel defects. AI was recently described in patients with familial hypercalciuria and hypomagnesaemia with nephrocalcinosis (FHHNC) caused by CLDN16 mutations. In the kidney, claudin-16 interacts with claudin-19 to control the paracellular passage of calcium and magnesium.

Ameloblastin as a putative marker of specific bone compartments.

Ameloblastin (AMBN), a member of the enamel matrix protein family, has been recently identified as integral part of the skeleton beyond the enamel. However, the specific role of endogenous AMBN in bone tissue is not fully elucidated. This study aims at investigating mRNA expression of AMBN in wild-type mice in different bone sites from early embryonic to adult stages.