Alkaline phosphatase isoenzymes determination and zinc concentrations in human serum, liver and pancreas /

Kulnaree Vorapongpichest.

January 1978

Thesis (M.Sc. (Clinical Pathology))--Mahidol University, 1978.

Hepatic uptake of intestinal alkaline phosphatase a morphological and kinetic study in the rat /

Scholtens, Henderikus Bernardus.

January 1980

Thesis (doctoral)--Rijksuniversiteit te Groningen.

Elucidating the mechanisms through which tissue non-specific alkaline phosphatase mediates intracellular lipid accumulation

Cave, Eleanor Margaret

January 2017

Background: Tissue non-specific alkaline phosphatase (TNAP) is an enzyme which functions within the body to catalyze the hydrolysis of pyrophosphate to phosphate, and is a well-known mediator of bone mineralization. It has also been identified as a positive mediator of intracellular lipid accumulation (ICLA) in both murine and human preadipocytes as well as in the hepatocellular cell line HepG2. However, the mechanism through which TNAP functions to control ICLA is not known. Both osteoblasts and adipocytes are both of mesenchymal origin and thus may share conserved mechanisms through which TNAP functions. Within bone, TNAP converts pyrophosphate (which inhibits mineralization) to phosphate. This phosphate is essential to the mineralization process through binding to hydroxyapatite crystals, and it also activates the transcription of genes whose products function in osteoblast differentiation, including NRF2. This thesis therefore aimed to determine the role of both pyrophosphate and TNAP-generated phosphate in ICLA. In addition, it is possible that TNAP may interact with other proteins, as it is known that TNAP is able to dephosphorylate proteins such as tau. This thesis therefore aimed to determine whether TNAP binds to other proteins in the context of ICLA. Lipids are not only stored within hepatocytes and adipocytes, but are also found in cells of the adrenal cortex, and TNAP is known to be expressed within such cells. Therefore, this thesis also aimed to determine whether TNAP is involved in the accumulation of cholesterol esters within lipid droplets in the adrenal cortex. Methods: To determine the effect of high intracellular pyrophosphate levels on ICLA, 3T3-L1 cells (a preadipocyte cell line) were cultured in the presence and absence of probenecid, an inhibitor of the pyrophosphate transporter ANK, and induced to accumulate lipids. Lipid accumulation was monitored through Oil red O staining. The effect of probenecid treatment on TNAP activity and intracellular pyrophosphate levels was also analysed. To determine whether TNAP functions in ICLA by producing phosphate for gene induction, 3T3-L1 cells were stimulated to undergo ICLA in the presence and absence of the TNAP inhibitor levamisole, which in turn blocks ICLA. Levamisole treated cells were also incubated with phosphate to see if this would overcome the inhibitory effect of levamisole on ICLA. The ability of phosphate to induce gene expression of NRF2 was determined through real-time PCR. In addition, an NRF2 expressing plasmid was transfected into cells treated with the TNAP inhibitor levamisole to determine if this would also overcome the block on ICLA caused by TNAP inhibition. In silico analysis identified TRAF2 as a potential binder of TNAP. The expression of TRAF2 during ICLA was determined through real time PCR, and the effect of overexpression of TRAF2 on intracellular lipid accumulation was determined through the transfection of a TRAF2 expressing plasmid in cells induced to undergo ICLA. To determine whether TNAP modulates lipid accumulation in cells of the adrenal cortex, the Y1 murine adrenocortical cell line was cultured in the presence and absence of TNAP inhibitor levamisole, and ICLA measured by Oil Red O staining. The location of TNAP within Y1 cells was identified by histochemical staining. Results: Cells treated with probenecid showed increased pyrophosphate levels (expressed as a % of levels observed at baseline) when compared to untreated controls (155.5 ± 15.1 % vs 51.1 ± 18.9 %; p=0.001) after 24 hours of culture. Increased pyrophosphate levels resulted in ICLA within 3T3-L1 cells surpassing levels seen in untreated controls (507.4 ± 30.4 % vs 337.6 ± 16.17 %; p=0.004). This increase in pyrophosphate was coupled to an increase in TNAP activity within the initial 24 hours (291.5 ± 72.8 % vs baseline of 100%; p=0.038) compared to that seen in control experiments (103.43 ± 24.3 % vs baseline of 100%; p=0.848). Cells treated with levamisole showed minimal ICLA and when exogenous phosphate was added, lipid levels were reconstituted to levels similar to that seen in cells induced to accumulate lipids in the absence of levamisole (284.01 ± 62.52% vs 275.86 ± 35.52%; p= 0.83). In the presence of levamisole plus exogenous phosphate, NRF2 expression was upregulated within 1 hour of treatment to levels greater than that seen in the absence of phosphate but presence of levamisole (216.64 ± 19.24% vs 98.28 ± 3.79%; p=0.004). Expression of NRF2 (through transfection with an NRF2 expression plasmid) in cells deficient in TNAP activity (via levamisole treatment), and induced to accumulate lipids, was not able to completely reconstitute ICLA when compared to cells not treated with levamisole (193.72 ± 16.51 vs 326.46 ± 47.64; p = 0.019), but ICLA was still greater than that observed at baseline. In silico analysis predicted that TNAP would bind to TRAF2, yet neither band shift assays nor immune co-precipitation showed evidence of this. However, TRAF2 mRNA was down regulated within 3T3-L1 cells during adipogenesis, reaching levels of 15.27 ± 10.27% (p= 0.014) of baseline (levels prior to induction of intracellular lipid accumulation) by day 4 of lipid accumulation. Overexpression of TRAF2 during adipogenesis markedly reduced intracellular lipid accumulation (147.88 ± 11.28% vs 326.46 ± 47.64%; p=0.028 (after 8 days of culture)). In Y1 cells TNAP activity is upregulated during ICLA, reaching 233 ± 37.56% (p=0.019 vs. baseline) of baseline levels within the initial 24 hours. Inhibition of TNAP activity through levamisole treatment resulted in a decrease in ICLA when compared to cells not treated with levamisole. Histochemical analysis showed that TNAP activity was localised to the lipid droplet. Discussion and Conclusions: Within 3T3-L1 cells TNAP mediates intracellular lipid accumulation through the generation of phosphate. The phosphate is able to increase the expression of NRF2, however it is likely that NRF2 is not the only gene whose expression is regulated by TNAP-generated phosphate. It was found that TNAP and TRAF2 do not bind to each other in the context of ICLA; however TRAF2 is a negative mediator of ICLA through a TNAP-independent mechanism. Functional TNAP is necessary for the accumulation of cholesterol esters within the Y1 cell line, suggesting that TNAP is essential for lipid accumulation in cell types that store lipids in intracellular membrane-bound droplets in the form of triglycerides or cholesterol esters. / GR2018

Intracellular Lipid Accumulation (ICLA)

Feed additives and animal waste phosphorous reactions

Barnett, G. M. (Gordon M.)

January 1992

No description available.

Farm manure

Phosphatic fertilizers.

Alkaline phosphatase.

Feed additives.

The Role of 5' Nucleotidase in the Regulation of Morphogenesis in Dictyostelium Discoideum

Chanchao, Chanpen

03 July 1999

5' Nucleotidase (5NU) in <i>Dictyostelium discoideum</i> is an enzyme that shows high substrate specificity to 5'AMP. The enzyme has received considerable attention in the past because of the critical role played by cyclic AMP in cell differentiation in this organism. Degradation of cAMP by cAMP phosphodiesterase (PDE) produces 5'AMP, the substrate of 5NU. Dictyostelium switches its genetic program from growth to cellular differentiation when nutrients become limited. During the time course of development, the activity of 5NU is high and becomes restricted to a narrow band of cells that form the interface between the prestalk/prespore zones. Understanding how this gene is regulated will provide knowledge underlying the process of cell differentiation. In order to understand the functional significance of the 5NU, I first purified of the 5NU protein using an artificial substrate p-nitrophenol phosphate (pNPP). An activity stain on non-denaturing gels with Nitro Blue Tetrazolium (NBT) and 5-Bromo-4-Chloro-3-Indolyl Phosphate (BCIP) as the substrate was also used. A polypeptide of approximately 90 kDa was associated with 5NU enzyme activity after gel filtration chromatography and denaturing gel electrophoreses. Protein sequence of this peptide was obtained from Mass Spectrometry and Edmund Degradation. Various databanks were searched for similar sequences, but no matches with high identity were obtained. However, a search of the sequences of an ongoing cDNA project at the University of Tsukuba in Japan revealed a clone that corresponded to the peptide sequence of 5NU. In addition, a clone was found that corresponded to the classical "alkaline phosphatase" found in several organisms. Analysis of the expression of the 5NU and AP during Dictyostelium development by Northern blotting determined that the 5NU is developmentally regulated while the AP is expressed at all stages of the life cycle. Southern blot analysis showed a single form of the gene for both 5NU and AP. Targeted gene disruption and knockout mutagenesis using the 5NU sequences flanking a blasticidin-resistant cassette was attempted. Analysis of the transformants showed the 5NU gene was not disrupted, and that the blasticidin-resistant cassette was randomly inserted into the genome. / Ph. D.

gene disruption

5′ nucleotidase

alkaline phosphatase

AX3K transformants

purification

expression

Human intestinal alkaline phosphatase : tissue expression and serum levels

Domar, Ulla

January 1992

Human alkaline phosphatase (ALP) comprises four isozymes, viz liver/bone/ kidney or tissue unspecific (AP), intestinal (LAP), placental (PLAP) and germ cell or PLAP-like alkaline phosphatase, with their main expression in specific tissues as indicated by their names. The isozymes are coded by different genes, but they are closely related, with more than 50% amino acid sequence homologies. Their biological function is unclear. In certain malignant and benign diseases, serum elevations of one or more of the isozymes occur, which is of diagnostic importance. In this study, the special expression of the intestinal isozyme in human tissues and sera, in normal as well as in pathological conditions, has been investigated by use of isozyme specific monoclonal antibodies. Monoclonal antibodies against the AP, IAP and PLAP isozymes were prepared, and specific assays developed, based on these monoclonal antibodies and the catalytic activity of the isozymes. By use of these assays the basal levels of all three isozymes were examined in selected normal organs. The isozymes were found to be expressed in measurable amounts in all the examined organs. IAP was immunohistochemically localized to the epithelial cells of membranes lining the ducts and tubules of the kidney, liver, pancreas and small intestine. Normal human serum contained all three isozymes. The AP isozyme constituted about 90% of the total ALP activity, the IAP isozyme less than 10% and the PLAP isozyme about 1%. Considerable interindividual variations of the serum IAP activity were observed. The serum activities of the IAP isozyme were related to the individual ABO blood group and secretor status. Non-secretors had low levels of IAP activity amounting to about one tenth of the activity in sera from blood group B or 0 secretors, while blood group A secretors had serum IAP activities in the same order as non-secretors. High individual day to day variations were observed. Fat absorption caused serum IAP to increase significantly for all persons, but it was rapidly cleared from the blood. We found that the release of IAP into the blood was linked to lipid absorption, but removal from the blood was not linked to lipoprotein clearance. Certain tumors of the testis expressed elevated levels of all three ALP isozymes. The highest activitiy of LAP was observed in one yolk sac tumor, in agreement with the endodermal origin of this tumor. In seminoma tissue the AP and PLAP isozymes were significantly, and IAP moderately elevated. Cirrhosis of the liver caused significantly increased serum levels of IAP besides the AP isozyme. In inflammatory diseases of the small intestine, normal serum IAP activities were observed. / <p>Diss. (sammanfattning) Umeå : Umeå universitet, 1992, härtill 7 uppsatser.</p> / digitalisering@umu

Human alkaline phosphatase

intestinal alkaline phosphatase

blood

blood group

lipid

monoclonal antibody

immunohistochemistry

liver

kidney

pancreas

liver disease

inflammatory bowel disease

Promiscuity and Selectivity in Phosphoryl Transferases

Barrozo, Alexandre

January 2016

Phosphoryl transfers are essential chemical reactions in key life processes, including energy production, signal transduction and protein synthesis. They are known for having extremely low reaction rates in aqueous solution, reaching the scale of millions of years. In order to make life possible, enzymes that catalyse phosphoryl transfer, phosphoryl transferases, have evolved to be tremendously proficient catalysts, increasing reaction rates to the millisecond timescale. Due to the nature of the electronic structure of phosphorus atoms, understanding how hydrolysis of phosphate esters occurs is a complex task. Experimental studies on the hydrolysis of phosphate monoesters with acidic leaving groups suggest a concerted mechanism with a loose, metaphosphate-like transition state. Theoretical studies have suggested two possible concerted pathways, either with loose or tight transition state geometries, plus the possibility of a stepwise mechanism with the formation of a phosphorane intermediate. Different pathways were shown to be energetically preferable depending on the acidity of the leaving group. Here we performed computational studies to revisit how this mechanistic shift occurs along a series of aryl phosphate monoesters, suggesting possible factors leading to such change. The fact that distinct pathways can occur in solution could mean that the same is possible for an enzyme active site. We performed simulations on the catalytic activity of β-phosphoglucomutase, suggesting that it is possible for two mechanisms to occur at the same time for the phosphoryl transfer. Curiously, several phosphoryl transferases were shown to be able to catalyse not only phosphate ester hydrolysis, but also the cleavage of other compounds. We modeled the catalytic mechanism of two highly promiscuous members of the alkaline phosphatase superfamily. Our model reproduces key experimental observables and shows that these enzymes are electrostatically flexible, employing the same set of residues to enhance the rates of different reactions, with different electrostatic contributions per residue.

phosphate chemistry

linear free energy relationships

phosphatase

catalytic promiscuity

empirical valence bond approach

alkaline phosphatase

Fosfatase alcalina reconstituída em \'Lipid Rafts\' / Reconstitution of alkaline phosphatase in Lipid Rafts.

Bolean, Maytê

11 March 2010

A organização da membrana biológica em microdomínios tem um papel chave em vários processos celulares semelhante a receptores protéicos e a transdução de sinal. A existência de microdomínios, também denominados de rafts tem sido explicada pela separação das membranas lipídicas em duas fases: liquida cristalina (L) e fase liquida ordenada (Lo) rica em colesterol e esfingolipídeos. Assim, o enfoque deste projeto foi correlacionar mecanismos de controle da atividade da fosfatase alcalina (TNAP) com a organização intermolecular e o estado de fase de alguns lipídios que compõem as vesículas da matrix. Foi estudada a modulação da atividade da enzima e sua inserção à sistemas de lipossomos constituídos com diferentes composições lipídicas (Dipalmitoilfosfatidilcolina, Colesterol, Esfingomielina e Gangliosídeo) como um mecanismo de regulação e transdução entre enzimas que não compartilham intermediários metabólicos comuns. Isto é, verificar como mudanças de organização molecular, induzida por colesterol e/ou outros lipídios, podem modular a atividade de enzimas regulando a produção de mensageiros lipídicos secundários e/ou processos de fusão e recombinação topológica da bicamada lipídica, modulando concomitantemente a atividade da fosfatase alcalina. Com tal propósito, a TNAP foi reconstituída em lipossomos constituídos de DPPC e lipossomos mistos formando sistemas binários DPPC:Chol, DPPC:SM e DPPC:GM1 com razões molares de (9:1); sistemas terciários DPPC:Chol:SM, DPPC:Chol:GM1 e DPPC:SM:GM1 com razões molares de (8:1:1) e por fim sistemas quaternários constituídos de DPPC:Chol:SM:GM1 (7:1:1:1). Estes sistemas foram propostos com o intuito de mimetizarmos os lipid rafts existentes nas membranas biológicas, porém utilizando lipídios que já foram identificados e quantificados nas vesículas da matrix. Foram avaliados os efeitos da composição lipídica dos lipossomos na inserção da enzima aos sistemas vesiculares. Além disso, foram realizados estudos biofísicos de calorimetria analisando como os parâmetros termodinâmicos são afetados com as diferentes composições lipídicas e pela presença da enzima ancorada aos sistemas. A reconstituição da enzima a lipossomos constituídos de DPPC proporcionou uma incorporação em torno de 80% da atividade enzimática. Estudos termodinâmicos dos proteolipossomos formados evidenciaram uma queda significativa nos valores de variação de entalpia em relação aos sistemas de lipossomos (de 7,63 a 1,88 kcal.mol-1). Lipossomos binários constituídos de DPPC:Chol em concentrações crescentes (9:1, 9:2, 9:3, 7:3, 9:4 e 9:5 razão molar) foram estudados tanto pelos parâmetros biofísicos como pela habilidade de inserção da enzima a tais sistemas. Foi observado um significativo decréscimo nos valores de variação entalpia com o aumento da proporção de colesterol no lipossomo. Além disso, a presença do colesterol proporcionou uma redução na inserção da atividade catalítica em até 42%, quando utilizada a composição lipídica de 9:5 DPPC:Chol. Dos sistemas binários formados com razões molares 9:1, o que apresentou maior porcentagem de reconstituição da TNAP foi o sistemas DPPC:Chol, apresentando em torno de 62% de incorporação da enzima. Os sistemas terciários apresentaram ao redor de 30% de incorporação da atividade catalítica e o sistema quaternário em torno de 25%. Além dos ensaios de atividade enzimática, a incorporação da enzima aos sistemas vesiculares também pôde ser comprovada pelas mudanças nos parâmetros termodinâmicas detectados por DSC. Nos estudos de calorimetria de todos os sistemas de proteolipossomos formados, foram observadas significativas diminuições nos valores de variação de entalpia quando comparados aos sistemas de lipossomos correspondentes. Deste modo, os resultados aqui apresentados fornecem novas informações que poderão contribuir tanto para a compreensão do comportamento da atividade da fosfatase alcalina na presença de diferentes composições lipídicas dos microdomínios existente membrana, quanto para o entendimento dos processos de regulação da enzima durante o processo de biomineralização. / The organization of the biological membrane in microdomains has a key roll in many cellular processes similar to proteic receptors and signal transduction. The existence of microdomains, also called rafts, has been explained by the lipid membrane separation in two phases: crystalline phase (L) and ordinate liquid phase (Lo), rich in cholesterol and sphingolipids. The focus of this Project was to correlate activity control mechanisms of the alkaline phosphatase (TNAP) with the intermolecular organization and the phase stat of some lipids that comprise the matrix vesicles. The enzyme activity modulation and its insertion into liposomes systems, constituted by different lipid compositions (DPPC, Chol, SM e GM1) as a regulation and transduction mechanism between enzymes that do not share common intermediary metabolites, was studied. That is, to verify how molecular organization changes, induced by cholesterol and/or other lipids, can modulate the enzyme activity regulating the production of secondary lipid messengers and/or fusion processes and topological recombination of the lipidic bilayer, concomitantly modeling the alkaline phosphatase activity. TNAP was then reconstituted in liposomes constituted by DPPC and mixed liposomes forming binary systems DPPC:Chol , DPPC:SM , DPPC: Chol:GM1 with (9:1) molar rates; tertiary systems DPPC:Chol:SM, DPPC:Chol:GM1 and DPPC:SM:GM1 with (8:1:1) molar rates and finally quaternary system constituted by DPPC:Chol:SM:GM1 (7:1:1:1). These systems were proposed aiming the mimetization of lipid rafts existent in biological membranes, but using lipids that had already been identified and quantified in the matrix vesicles. The effects of liposome lipid composition in the enzyme insertion to the vesicular systems were assayed. Besides that, calorimetry biophysical studies were done analyzing how the thermodynamic parameters are affected by the different lipid compositions e by the presence of the systems anchored enzyme. The enzyme reconstruction to the DPPC constituted liposomes has provided an incorporation of around 80% of the enzyme activity. Thermodynamic studies of the proteoliposomes formed have shown a significant decrease in the H values in relation to the liposomes systems (from 7.63 to 1.88 kcal.mol-1). Binary liposomes constituted of DPPC:Chol in increasing concentrations (9:1, 9:2, 9:3, 7:3, 9:4 e 9:5 molar ratio) were studied by the biophysical parameters as well as by the insertion ability of the enzyme into those systems. A significant decrease in the enthalpy values with the increase of the cholesterol proportion in the liposome was observed. Besides that, the presence of cholesterol has allowed a reduction in the insertion of the catalytic activity in up to 42% when the lipid composition 9:5 DPPPC:Chol was used. Among the binary systems formed with molar ratios of 9:1, the one which showed the highest percentage of TNAP reconstitution was the DPPC:Chol system, with around 62% enzyme incorporation. The tertiary systems had around 30% incorporation of the catalytic activity, and the quaternary system around 25%. Besides the enzymatic activity assays, the enzyme incorporation to the vesicular systems can also be verified by the thermodynamic parameters change detected by DSC. In the calorimetry studies of all the proteoliposomes formed, significant decreases in the enthalpy values were observed when compared to the corresponding liposomes systems. Thereby, the results presented here provide new information that can contribute to understand the alkaline phosphatase behavior in the presence of different microdomain lipid compositions existent in the membrane, as well as understanding the regulation processes of the enzyme during the biomineralization process.

Alkaline phosphatase

DSC

DSC

Fosfatase alcalina

Lipid rafts

Lipid rafts

Liposome

Lipossomo

Proteoliposome

Proteolipossomo.

Estudo do efeito do colesterol como um modulador da atividade da fosfatase alcalina incorporada em sistemas miméticos de vesículas da matriz / Study of the effect of cholesterol as a modulator of the alkaline phosphatase systems mimetics incorporated into the matrix vesicles activity.

Favarin, Bruno Zoccaratto

27 June 2014

Os osteoblastos são responsáveis pelo início do processo de biomineralização óssea mediada pela liberação de vesículas da matriz (MVs). As MVs surgem por brotamento das superfícies laterais dos osteoblastos e são secretadas para a matriz. A membrana das MVs possuem níveis elevados de Fosfatase Alcalina (TNAP), entre outra enzimas/proteínas, bem como de Chol, em comparação com a membrana plasmática. O objetivo deste estudo foi a construção de proteolipossomos constituídos por Dipalmitoilfosfatidilcolina (DPPC) ou Dioleoilfosfatidilcolina (DOPC), com Colesterol (Chol) em diferentes proporções para a caracterização cinética da TNAP, utilizando os substratos ATP, PPi e ADP, a fim de se obter um sistema que mimetize as MVs. O aumento da concentração de Chol dificultou a incorporação da TNAP aos sistemas constituídos com DPPC, e facilitou a sua incorporação aos constituídos por DOPC. A presença do Chol em todos os sistemas miméticos preparados afetou os parâmetros cinéticos de hidrólise da TNAP para todos os substratos estudados. Entretanto, independentemente da presença do Chol, a hidrólise do PPi apresentou sempre uma maior eficiência (maior kcat/K0.5), sugerindo que este substrato provavelmente possa ser hidrolisado preferencialmente. O tratamento com 2 mM de ciclodextrina (bmCD), resultou na remoção de apenas 70% do Chol de proteolipossomos constituídos por DPPC:Chol 36% mol. Estudos de calorimetria diferencial (DSC) revelaram que a bmCD fica ligada ao sistemas vesiculares causando interferência para os demais ensaios. Quando 36% mol de colestenona (Achol), um análogo de Chol, foi empregado na construção dos proteolipossomos de DPPC, foram encontrados comportamentos cinéticos distintos para a TNAP. O ATP foi hidrolisado com uma Vmáx menor que a os sistemas constituídos por DPPC:Chol 36% e maior do que para sistemas de DOPC:Chol 36% mol. Os valores de K0.5 foram menores para DPPC:Achol 36 % mol em comparação aos sistemas análogos. Com relação a hidrolise do PPi, os parâmetros cinéticos foram similares, em relação aos sistemas estudados contendo DPPC:Chol ou DOPC:Chol. Por fim, foi avaliada a capacidade de propagação de nódulos de mineralização pelos sistemas vesiculares contendo DPPC, DPPC:Chol e DPPC:Achol (com e sem TNAP incorporada), utilizando o ATP como substrato. A mineralização foi cerda de 16 vezes mais eficiente na presença de protelipossomos que continham tanto Chol ou colestenona, do que para o sistema somente constituído por DPPC (cerca de 4 vezes), quando comparados com os respectivos sistemas de lipossomos (na ausência de enzima). Diante destas diferenças apresentadas, tanto no comportamento cinético, quanto na capacidade de mineralização, pode-se suger que o microambiente lipídico tem um importante papel das MVs. Uma explicação que pode ser sugerida é que fatores termodinâmicos como: a diminuição da entalpia de transição; perda de pré-transição; presença de cargas superficiais; presença de diferentes substratos; bem como, orientações das ligações de hidrogênio com a molécula de água na superfície dos proteolipossomos, podem acarretar em modificações conformacionais na TNAP. A relevância dos resultados apresentados pode contribuir no entendimento da função dos lipídios e de suas interações com as proteínas presentes na MVs no processo de biomineralização. / Osteoblasts are responsible for initiating the bone biomineralization process mediated by the release of matrix vesicles (MVs). The MVs arise by budding from the membrane of the osteoblasts and are secreted into the matrix. The MVs membrane has high levels of tissue non-specific alkaline phosphatase (TNAP), among other enzymes/proteins, as well as cholesterol, compared with the plasma membrane. The objective of this study was to build proteoliposomes constituted by Dipalmitoylphosphatidylcholine (DPPC) or dioleoylphosphatidylcholine (DOPC), with cholesterol (Chol) in different molar ratios for the kinetic characterization of TNAP, using the substrates ATP, ADP and PPi, in order to obtain systems that mimic the MVs. The increase in the cholesterol concentration hampered the incorporation of TNAP into the DPPC systems, but favored its incorporation into the DOPC liposomes. The presence of cholesterol in all prepared mimetic systems affected the kinetic parameters of hydrolysis for all substrates studied. Regardless of the presence of cholesterol, PPi hydrolysis always showed greater catalytic efficiency (kcat/K0.5), suggesting a preferential hydrolysis of this substrate. Treatment with 2 mM cyclodextrin (BMCD) resulted in removal of 70% of the cholesterol from the proteoliposome constituted of DPPC:Cholesterol 36% (molar ratio). Differential scanning calorimetry (DSC) studies showed that BMCD was bound to the vesicular systems interfering with the other assays. When 36% of cholestenone (Achol), an analogue of cholesterol, was employed in the construction of DPPC proteoliposomes, a different kinetic behavior was observed for TNAP. The Vmax for ATP hydrolysis was lower compared with the systems constituted of DPPC:Chol 36% and higher than that obtained for the DOPC:Chol 36% system. The values of K0.5 were lower for DPPC:Achol 36% compared to the similar systems. With respect to the hydrolysis of PPi, the kinetic parameters were similar for the systems constituted of DPPC:Chol and DOPC:Chol. Finally, we evaluated the ability of the vesicular systems containing DPPC, DPPC:Chol and DPPC:Achol (with and without TNAP incorporated) to propagate mineralization nodules, using ATP as substrate. The mineralization was about 16 times more efficient in the presence of proteoliposomes containing Chol or Achol than for the system constituted of DPPC only (about 4 times more efficient) compared with the corresponding liposome (in the absence of enzyme). Given the differences observed for both the kinetic behavior and the mineralization ability of the different systems, we suggest that the lipid microenvironment plays an important role in MVs function. A possible explanation for these differences is that thermodynamic factors such as the decrease in the enthalpy of transition and the loss of pre-transition, as well as the presence of surface charges, the presence of different substrates, and the orientation of hydrogen bonds with the water molecule on the surface of the proteoliposomes, may cause conformational changes in TNAP molecule. These relevant results can contribute for the understanding of the role of lipids and their interactions with proteins present in MVs in the biomineralization process.

Alkaline Phosphatase

Cholesterol

Cinética enzimática.

Colesterol

Fosfatase Alcalina

Kinect Enzyme

liposome

Lipossomos

Proteoliposome

Proteolipossomos

Microdominios lipídicos ricos em fosfatase alcalina em filmes Langmuir-Blodgett para obtenção de uma superfície de Ti osteoindutora / Lipid microdomains films rich in alkaline phosphatase in Langmuir-Blodgett to obtain a Ti surface osteoinductive.

Andrade, Marco Aurélio Raz de

03 March 2017

Dentre os diversos processos de formação de mineral em organismos vivos, a formação do tecido ósseo é um exemplo particular, uma vez que fosfatos de cálcio, na forma de hidroxiapatita, são produzidos em meio a fibrilas de colágeno na matriz extracelular de células osteogênicas; processo este regulado por um complexo enzimático. A fosfatase alcalina tecido não-específico (TNAP) desempenha um papel fundamental na histogênese óssea, responsável principalmente pela produção de fosfato inorgânico necessário para a formação dos minerais. Diversas abordagens experimentais permitem a reconstituição desta enzima em sistemas miméticos de membrana celular, dentre os quais, os filmes Langmuir-Blodgett (LB), que possibilitam a formação de materiais com propriedades osteoindutoras. No presente estudo, foi investigada a imobilização desta enzima em filmes LB sobre suportes de Ti. O ácido dimiristoil fosfatídico foi o fosfolipídeo utilizado na confecção dos filmes LB, obtendo um regime de deposição linear de massa em função do número de camadas depositadas em subfases de CaCl2. A TNAP foi imobilizada nos filmes através de duas metodologias: a partir da adsorção física da enzima aos filmes LB pré-transferidos a um suporte sólido, ou ainda por meio da construção do filme a partir de uma monocamada mista de DMPA/Ca2+/TNAP. Em ambas as metodologias adotadas, foi obtida uma diminuição drástica da atividade fosfohidrolítica da forma imobilizada da enzima, em relação à sua atividade obtida em meio homogêneo. Ao expor suportes de Ti modificados com os filmes LB em uma solução contendo íons Ca2+ e ATP como fonte de fosfato inorgânico, foi observada a formação de uma maior quantidade de mineral para as amostras contendo a TNAP imobilizada; atribuída a uma maior supersaturação local de íons fosfato devido a maior hidrólise de ATP na presença da enzima, demonstrando a capacidade desta em conferir à superfície modificada uma maior capacidade na indução de formação de mineral. Após este ensaio de mineralização in vitro, foi obtida uma maior hidrofilicidade das superfícies recobertas com os filmes LB na presença da TNAP, tornando estas superfícies modificadas mais bioativas. A presença dos filmes LB mistos de lipídeo/TNAP nas superfícies permitiram a adesão, proliferação e recobrimento homogêneo de células osteogênicas, que posteriormente promoveram o extravasamento de fibrilas proteicas e a formação de nódulos de mineralização. Estes resultados são importantes na confecção de materiais que acelerem o processo de osteoindução. / Among all the processes of mineral formation in living organisms, the osseous tissue formation is a particular example, since that calcium phosphates as hydroxyapatite are produced among collagen fibrils at the extracellular matrix of osteogenic cells, being this process regulated by an enzymatic complex. The tissue nonspecific alkaline phosphatase (TNAP) plays a central role on the osseous histogenesis, responsible mainly for the inorganic phosphate production necessary for mineral formation. Various experimental approaches allows this enzyme reconstitution in cellular membrane mimetic systems, among which, the Langmuir-Blodgett films (LB), that allows the formation of materials with osteoinductive properties. With that in mind, the immobilization of that enzyme in titanium supports modified with LB films was investigated. The dimyristoyl phosphatidic acid was the phospholipid used in the LB film construction, obtaining a linear deposition-layer numbers relation in CaCl2 subphases. The TNAP was immobilized at the films through two main methodologies: from the physical adsorption of the enzyme to the LB film pre-constructed on a solid support, or through the film construction from the mixed DMPA/Ca2+/TNAP monolayer. At both the adopted methodologies, it was obtained a diminishment at the phosphohidrolytic activity of the immobilized enzyme, comparing to its activity at homogeneous media. Exposing the Ti supports with the LB films in a solution containing Ca2+ ions and ATP as a phosphate source, it was observed a higeher mineral formation to the samples containing the immobilized TNAP, possibly due to a higher phosphate ions supersaturation from the higher ATP hydrolysis at the presence of the enzyme, demonstrating the capacity of the TNAP in promoting a higher mineral formation induction to the modified surface. After this in vitro mineralization assay, it was obtained surfaces more hydrophilic at presence of the LB films containing TNAP, making those modified surfaces more bioactive. The mixed LB films presence at the surfaces allowed the adhesion, proliferation and homogeneous covering of osteogenic cells, that posteriorly promoted the production of proteic fibrils and mineralization nodules. Those results are important in order to construct materials more osteointegrative.

Alkaline phosphatase

Biomineralização

Biomineralization

Filmes Langmuir-Blodgett

Fosfatase alcalina

Langmuir-Blodgett films