Abstract: Disclosed herein are compounds that are tissue-nonspecific alkaline phosphatase inhibitors. The disclosed compounds are used to treat, prevent, or abate vascular calcification, arterial calcification and other cardiovascular diseases.

Abstract: This invention relates generally to the field of mineralization, and specifically to the role of TNAP in regulating the levels of extracellular inorganic pyrophosphate. The invention provides methods for modulating the activity of TNAP activity; methods for screening for modulators of TNAP activity; modulators of TNAP activity; and methods for treating pathologic conditions known of suspected to be affected by modulation of TNAP activity.

Abstract: Disclosed herein are tissue-nonspecific alkaline phosphatase (TNAP) activators and uses thereof for promoting bone mineral deposition.

Abstract: The key function of TNAP in bone is degradation of PPi to remove this mineralization inhibitor and provide free phosphate for apatite deposition. PC-1 is a direct antagonist of TNAP function. ANK also antagonizes TNAP-dependent matrix calcification. Specifically, the activity of PC-1 inhibits initial MV apatite deposition, but ANK inhibits propagation of apatite outside the MVs. Furthermore, loss of function of the two distinct skeletal TNAP antagonists, PC-1 and ANK, ameliorates TNAP deficiency-associated osteomalacia in vivo. Conversely, the hyperossification associated with both PC-1 null mice and ANK-deficient (ank/ank) mice is ameliorated by deficiency of TNAP in vivo.

Abstract: The key function of TNAP in bone is degradation of PPi to remove this mineralization inhibitor and provide free phosphate for apatite deposition. PC-1 is a direct antagonist of TNAP function. ANK antagonizes TNAP-dependent matrix calcification. Specifically, the activity of PC-1 inhibits initial MV apatite deposition, but ANK inhibits propagation of apatite outside the MVs. Furthermore, loss of function of the two distinct skeletal TNAP antagonists, PC-1 and ANK, ameliorates TNAP deficiency-associated osteomalacia in vivo. Conversely, the hyperossification associated with both PC-1 null mice and ANK-deficient (ank/ank) mice is ameliorated by deficiency of TNAP in vivo.

Abstract: The invention concerns a DNA coding a eukaryotic highly active alkaline phosphatase with a specific activity of more than 3000 U/mg. The invention also concerns a process for the production of a DNA according to the invention, a vector containing the DNA according to the invention and a cell line containing this vector. Furthermore the invention concerns a recombinant highly active alkaline phosphatase with a specific activity of more than 3000 U/mg which is coded by the DNA according to the invention.