Phytate (Myo-inositol hexakisphosphate) inhibits cardiovascular calcifications in rats.

@article{Grases2006PhytateH,
  title={Phytate (Myo-inositol hexakisphosphate) inhibits cardiovascular calcifications in rats.},
  author={Felix Grases and Pilar Sanch{\'i}s and Joan Perell{\'o} and Bernat Isern and R. Prieto and Carlos Fern{\'a}ndez-Palomeque and Miguel Fiol and Oriol Bonn{\'i}n and Jose Juan Torres},
  journal={Frontiers in bioscience : a journal and virtual library},
  year={2006},
  volume={11},
  pages={
          136-42
        }
}
Calcification is an undesirable disorder, which frequently occurs in the heart vessels. In general, the formation of calcific vascular lesions involves complex physicochemical and molecular events. Calcification (hydroxyapatite) is initiated by injury and is progressed by promoter factors and/or the deficit of inhibitory signals. Myo-inositol hexakisphosphate (phytate, InsP6) is found in organs, tissues and fluids of all mammals and exhibits an important capacity as a crystallization inhibitor… 
View on PubMed
bioscience.org
62 Citations
Highly Influential Citations
1
Background Citations
18
Methods Citations
1
Results Citations
1

62 Citations

Citation Type

Citation Type

Effect of crystallization inhibitors on vascular calcifications induced by vitamin D: a pilot study in Sprague-Dawley rats.
TLDR
The data showed that phytate-treated rats had lower levels of aortic calcium than placebo- treated rats, suggesting that polyphosphates could be important in protecting against vascular calcification.
Inhibition of vascular calcification by inositol phosphates derivatized with ethylene glycol oligomers
TLDR
It is shown that an optimized oligo(ethylene glycol) derivative of inositol phosphate interferes with calcium phosphate crystallization and inhibits soft tissue calcification in vivo following subcutaneous injection.
Key Aspects of Myo-Inositol Hexaphosphate (Phytate) and Pathological Calcifications
TLDR
In vitro studies have shown that InsP6 and its hydrolysates (InsPs), as well as pyrophosphate, bisphosphonates, and other polyphosphates, have high capacity to inhibit calcium salt crystallization and oral or topical administration of phytate in vivo significantly decreases the development of pathological calcifications.
Plant phosphates, phytate and pathological calcifications in chronic kidney disease.
Role of phytate and osteopontin in the mechanism of soft tissue calcification.
TLDR
An important role for crystallization inhibitors such as phytate in reducing hydroxyapatite crystal formation in the first steps of soft tissue calcification is suggested.
Inositol hexakisphosphate inhibits mineralization of MC3T3-E1 osteoblast cultures.
ABCC6, Pyrophosphate and Ectopic Calcification: Therapeutic Solutions
TLDR
The role of ABCC6 in ectopic calcification in PXE and other calcification disorders is summarized, therapeutic strategies targeting various proteins in the pathway (ABCC6, NPP1, and TNAP) and direct inhibition of calcification via supplementation by various compounds are discussed.
Protection Against Cancer by Dietary IP6 and Inositol
TLDR
Preliminary studies in humans show that IP6 and inositol, the precursor molecule of IP6, appear to enhance the anticancer effect of conventional chemotherapy, control cancer metastases, and improve quality of life.
Phytate reduces age-related cardiovascular calcification.
TLDR
It is demonstrated that dietary phytate treatment significantly reduced age-related aorta calcification in rats during aging.
Phytate inhibits bovine pericardium calcification in vitro.
  • F. Grases, P. Sanchís, +4 authors R. Prieto
  • Chemistry, Medicine
    Cardiovascular pathology : the official journal of the Society for Cardiovascular Pathology
  • 2008
...
1
2
3
4
5
...

References

SHOWING 1-10 OF 47 REFERENCES
Dietary myo-inositol hexaphosphate prevents dystrophic calcifications in soft tissues: a pilot study in Wistar rats.
Phosphate-induced vascular calcification: role of pyrophosphate and osteopontin.
TLDR
Elevated concentrations of Ca(2+) and PO(4)(3-) are not sufficient for medial vascular calcification because of inhibition by pyrophosphate, and OPN is not an endogenous inhibitor of calcification in rat aorta.
Absorption of myo-inositol hexakisphosphate (InsP6) through the skin: study of the matrix effects. mechanism of phytate topical absorption.
TLDR
It was found that phytate was absorbed through the skin using both a gel or a cream, demonstrating that its absorption is independent on the matrix used for topical treatment.
Phytate prevents tissue calcifications in female rats
TLDR
It is demonstrated that the absence of phytate in the AIN‐76 A diet is one of the causes of renal calcification in female rats.
Age-related arterial calcification in rats.
Extracellular matrix mineralization is regulated locally; different roles of two gla-containing proteins
TLDR
It is shown that restoration of MGP expression in arteries rescues the arterial mineralization phenotype of Mgp−/− mice, whereas its expression in osteoblasts prevents bone mineralization, indicating that ECMM is regulated locally in animals and uncover a striking disparity of function between proteins sharing identical structural motifs.
Spontaneous calcification of arteries and cartilage in mice lacking matrix GLA protein
TLDR
Mgp, a mineral-binding ECM protein3 synthesized by vascular smooth-muscle cells and chondrocytes, is the first inhibitor of calcification of arteries and cartilage to be characterized in vivo.
Determination of myo-inositol hexakisphosphate (phytate) in urine by inductively coupled plasma atomic emission spectrometry
The effect of osteopontin on the adhesion of calcium oxalate crystals to Madin-Darby canine kidney cells.
TLDR
It is suggested that OPN plays an important role in the formation of calcium-containing urinary stones through the increase in adhesion of calcium oxalate crystals to the renal distal tubular epithelium in the presence of OPN.
Nucleation and inhibition of hydroxyapatite formation by mineralized tissue proteins.
TLDR
OPN seems to be the mineralized tissue protein most likely to function in the inhibition of HA formation, possibly by preventing phase separation in tissue fluids of high supersaturation.
...
1
2
3
4
5
...