Bone Alkaline Phosphatase and Tartrate-Resistant Acid Phosphatase: Potential Co-regulators of Bone Mineralization

Linder, Cecilia Halling; Ek-Rylander, Barbro; Krumpel, Michael; Norgård, Maria; Narisawa, Sonoko; Millán, José Luis; Andersson, Göran; Magnusson, Per

doi:10.1007/s00223-017-0259-2

Cited by 91 publications

(57 citation statements)

References 51 publications

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“…Moreover, bone remodeling during AP is a defensive reaction to root canal infection, tending to an alveolar bone resorption due to an increase in osteoclastic activity. At the same time, ALP, which is important for mineral formation, tends to diminish due to decreased osteoblastic activity, contributing to the similarity of the results between the groups with and without apical lesions under alcohol administration.…”

Section: Discussionsupporting

confidence: 89%

Chronic alcohol consumption changes blood marker profile and bone density in rats with apical periodontitis

Dal‐Fabbro

Almeida

Cosme‐Silva

et al. 2019

J of Invest & Clin Dent

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Aim The aim of the present study was to evaluate apical periodontitis (AP) development in rats under a chronic alcohol diet by calcium, phosphorus, and alkaline phosphatase blood levels in addition to histological and radiographic analyses. Methods Thirty‐two rats were arranged into four groups: (a) group 1: without apical periodontitis and on a regular diet; (b) group 2: AP and on a regular diet; (c) group 3: alcoholic diet without apical periodontitis; and (d) group 4: alcoholic diet and apical periodontitis. Alcoholic solution at 20% was given throughout the 8‐week experiment. AP was induced in the first molars at the end of the 7th week. At the end, the animals were anesthetized for blood collection, followed by euthanasia, and jaws were removed for digital radiography and histological processing. The level of significance was 5%. Results Calcium levels remained constant in all groups (P > 0.05). Group 4 showed a higher phosphorous level than group 2 (P < 0.05). The alkaline phosphatase activity was higher in group 3 compared with group 1 (P < 0.05). Three animals in group 4 exhibited a severe inflammatory reaction, whereas the animals in group 2 did not demonstrate any reaction (P < 0.05). The lowest value of radiographic density was given by group 4 (P < 0.05). Conclusions Chronic alcohol consumption increased serum phosphorus and decreased bone density in the periapical region, favoring AP development.

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Section: Discussionsupporting

confidence: 89%

Chronic alcohol consumption changes blood marker profile and bone density in rats with apical periodontitis

Dal‐Fabbro

Almeida

Cosme‐Silva

et al. 2019

J of Invest & Clin Dent

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“…It consistent with some reports, for example, cartilage is composed of specialized cells called chondrocytes that produce a large amount of collagenous extracellular matrix and are closer together creating less intercellular space . And TRAP produced by osteoclasts can alleviate the inhibitory effect of OPN on mineralization, suggesting a potential role for TRAP in skeletal mineralization . Furthermore, human calcitonin (hCt) is a small peptide hormone that exerts its physiological effect on Ca(2 + ) metabolism by means of osteoclast‐mediated bone resorption inhibition …”

Section: Discussionsupporting

confidence: 83%

Glucagon‐like peptide 2 decreases osteoclasts by stimulating apoptosis dependent on nitric oxide synthase

Lü

2018

Cell Proliferation

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“…The predominant role of BALP during mineralization is the inactivation of inhibitory polyphosphates 52 , most importantly the main autocrine calcification inhibitor PP i 53,54 . ALPs are also speculated to inactivate the calcification inhibitor osteopontin through dephosphorylation 55 and a 2017 study showed that human BALP can suppress the inhibitory effect of osteopontin on in vitro mineralization 56 . In addition, ALPs generate P i , which is the substrate of mineralization, by hydrolysation of organic phosphate esters 57 .…”

Section: Mechanisms Of Mineralizationmentioning

confidence: 99%

Alkaline phosphatase: a novel treatment target for cardiovascular disease in CKD

et al. 2017

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Cardiovascular disease is the main cause of early death in the settings of chronic kidney disease (CKD), type 2 diabetes mellitus (T2DM), and ageing. Cardiovascular events can be caused by an imbalance between promoters and inhibitors of mineralization, which leads to vascular calcification. This process is akin to skeletal mineralization, which is carefully regulated and in which isozymes of alkaline phosphatase (ALP) have a crucial role. Four genes encode ALP isozymes in humans. Intestinal, placental and germ cell ALPs are tissue-specific, whereas the tissue-nonspecific isozyme of ALP (TNALP) is present in several tissues, including bone, liver and kidney. TNALP has a pivotal role in bone calcification. Experimental overexpression of TNALP in the vasculature is sufficient to induce vascular calcification, cardiac hypertrophy and premature death, mimicking the cardiovascular phenotype often found in CKD and T2DM. Intestinal ALP contributes to the gut mucosal defence and intestinal and liver ALPs might contribute to the acute inflammatory response to endogenous or pathogenic stimuli. Here we review novel mechanisms that link ALP to vascular calcification, inflammation, and endothelial dysfunction in kidney and cardiovascular diseases. We also discuss new drugs that target ALP, which have the potential to improve cardiovascular outcomes without inhibiting skeletal mineralization.

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Bone Alkaline Phosphatase and Tartrate-Resistant Acid Phosphatase: Potential Co-regulators of Bone Mineralization

Cited by 91 publications

References 51 publications

Chronic alcohol consumption changes blood marker profile and bone density in rats with apical periodontitis

Chronic alcohol consumption changes blood marker profile and bone density in rats with apical periodontitis

Glucagon‐like peptide 2 decreases osteoclasts by stimulating apoptosis dependent on nitric oxide synthase

Alkaline phosphatase: a novel treatment target for cardiovascular disease in CKD

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