Lung, heart, and kidney express high levels of mRNA for the vitamin K-dependent matrix Gla protein. Implications for the possible functions of matrix Gla protein and for the tissue distribution of the gamma-carboxylase.

We have used cDNA probes for two small vitamin K-dependent bone matrix proteins, bone Gla protein (BGP) and matrix Gla protein (MGP), to evaluate the possibility that either of these proteins might be synthesized by the various soft tissues previously shown to have gamma-carboxylase activity. BGP mRNA was found in bone but not in any of the soft tissues tested, a result which reinforces the view that plasma BGP is a specific marker for bone metabolism. In contrast, MGP mRNA was found in all rat tissues examined. Lung and heart have 10-fold higher levels of MGP mRNA than bone, and kidney has a 5-fold higher level. Despite the high levels of MGP mRNA in heart and kidney, these tissues contain 40-500-fold lower concentrations of MGP protein than bone. Immunofluorescence was used to identify cells that contain MGP in kidney, lung, heart, and spleen. In each tissue, MGP was found in discrete tissue-specific cell types. In most of the soft tissues tested, MGP is the first well characterized substrate for the vitamin K-dependent carboxylase found to be synthesized. The exceptionally broad tissue distribution for MGP synthesis demonstrates that the function of MGP is not specific to connective tissues, and the low levels of MGP antigen in soft tissues with high MGP mRNA levels indicate that MGP is unlikely to act solely by virtue of its accumulation in an extracellular matrix.