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Generation and characterization of bioactive peptides from flaxseed (<i> Linum usitatissimum L.</i>) proteinsMarambe, P. W. M. Lesanthi Harsha Kumari 15 April 2011
The potential of flaxseed (Linum usitatissimum L.) protein to release bioactive peptides upon enzymatic hydrolysis was evaluated. Flaxseed protein released angiotensin I-converting enzyme inhibitory (ACEI) peptides during in vitro simulated gastrointestinal (GI) digestion in a static (no removal of digested products) and a dynamic model (removal of <1 kDa molecules in the intestinal phase). The ACEI activity of the gastric plus intestinal digest (absorbed fraction-IC50: 0.04 mg N/mL; retained fraction-IC50: 0.05 mg N/mL; degree of hydrolysis, DH: 46.78 %) of the dynamic model was significantly higher (P<0.05) than that of the static model (IC50: 0.39 mg N/mL; DH: 43.95 %). Polypeptides of 48, 41, 29 and 20 kDa could be releasing these ACEI peptides. Six peptides in the highest ACEI fraction (0.5-1 kDa) of the absorbable gastric plus intestinal digest were identified via de novo sequencing. Only digests of the static model exhibited hydroxyl radical (OH) scavenging activity (IC50: 0.40 mg N/mL), suggesting the inappropriateness of such models in this type of research. Presence of mucilage and oil interfered with the in vitro digestibility of flaxseed protein, which could limit the release of ACEI peptides during GI digestion. The protein digestibility of milled whole flaxseed (12.61 %) was significantly improved (P<0.05) with the removal of mucilage (51.00 %) and oil together with mucilage (66.79 %). The digestibility of isolated flaxseed protein was 68.00 %.<p>
Flaxseed protein, hydrolyzed (DH: 11.94-70.62 %) with Flavourzyme® in a central composite rotatable design, possessed bioactivities with identified optimum enzyme/substrate and time of hydrolysis combinations, including ACEI activity (71.59-88.29 %, 83.7 LAPU/g protein, 19.9 h), scavenging of OH (12.48-22.08 %, 30.2 LAPU/ g protein, 1.5 h) and superoxide radical (O2-) (26.33-39.41 %, 4.9 LAPU/ g protein, 16.3 h) and inhibiting linoleic acid oxidation (0.71-94.33 %, 1.6 LAPU/ g protein, 12.6 h). The degradation pattern of polypeptides during enzymatic hydrolysis indicated that 48 and 13 kDa molecules could be releasing these bioactive peptides. De novo sequencing identified two ACEI and five OH scavenging peptides in the hydrolysate fractions (0.5-1.05 kDa) with the highest bioactivities. The findings suggest the importance of flaxseed protein as a source of cardioprotective bioactive peptides.
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Generation and characterization of bioactive peptides from flaxseed (<i> Linum usitatissimum L.</i>) proteinsMarambe, P. W. M. Lesanthi Harsha Kumari 15 April 2011 (has links)
The potential of flaxseed (Linum usitatissimum L.) protein to release bioactive peptides upon enzymatic hydrolysis was evaluated. Flaxseed protein released angiotensin I-converting enzyme inhibitory (ACEI) peptides during in vitro simulated gastrointestinal (GI) digestion in a static (no removal of digested products) and a dynamic model (removal of <1 kDa molecules in the intestinal phase). The ACEI activity of the gastric plus intestinal digest (absorbed fraction-IC50: 0.04 mg N/mL; retained fraction-IC50: 0.05 mg N/mL; degree of hydrolysis, DH: 46.78 %) of the dynamic model was significantly higher (P<0.05) than that of the static model (IC50: 0.39 mg N/mL; DH: 43.95 %). Polypeptides of 48, 41, 29 and 20 kDa could be releasing these ACEI peptides. Six peptides in the highest ACEI fraction (0.5-1 kDa) of the absorbable gastric plus intestinal digest were identified via de novo sequencing. Only digests of the static model exhibited hydroxyl radical (OH) scavenging activity (IC50: 0.40 mg N/mL), suggesting the inappropriateness of such models in this type of research. Presence of mucilage and oil interfered with the in vitro digestibility of flaxseed protein, which could limit the release of ACEI peptides during GI digestion. The protein digestibility of milled whole flaxseed (12.61 %) was significantly improved (P<0.05) with the removal of mucilage (51.00 %) and oil together with mucilage (66.79 %). The digestibility of isolated flaxseed protein was 68.00 %.<p>
Flaxseed protein, hydrolyzed (DH: 11.94-70.62 %) with Flavourzyme® in a central composite rotatable design, possessed bioactivities with identified optimum enzyme/substrate and time of hydrolysis combinations, including ACEI activity (71.59-88.29 %, 83.7 LAPU/g protein, 19.9 h), scavenging of OH (12.48-22.08 %, 30.2 LAPU/ g protein, 1.5 h) and superoxide radical (O2-) (26.33-39.41 %, 4.9 LAPU/ g protein, 16.3 h) and inhibiting linoleic acid oxidation (0.71-94.33 %, 1.6 LAPU/ g protein, 12.6 h). The degradation pattern of polypeptides during enzymatic hydrolysis indicated that 48 and 13 kDa molecules could be releasing these bioactive peptides. De novo sequencing identified two ACEI and five OH scavenging peptides in the hydrolysate fractions (0.5-1.05 kDa) with the highest bioactivities. The findings suggest the importance of flaxseed protein as a source of cardioprotective bioactive peptides.
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Efeito do cozimento e ação dos compostos fenólicos de arroz integral na inibição da enzima conversora de angiotensina I e da alfa-amilase / Cooking effect and inhibition of angiotensin I converting enzyme and alpha-amylase by compound phenolics from brown riceMassaretto, Isabel Louro 26 March 2009 (has links)
O arroz (Oryza sativa L.), principal alimento para cerca de metade da população mundial, é consumido principalmente na forma polida. Contudo, o arroz integral vem se destacando, devido principalmente aos compostos bioativos presentes nas camadas mais externas do grão. Os benefícios à saúde são atribuídos, em parte, à sua capacidade de combater radicais livres e exercer atividades biológicas, tais como a inibição de determinadas enzimas. Neste trabalho foram analisados os teores de compostos fenólicos totais (FT), solúveis (FS) e insolúveis (FI) e avaliado o efeito do cozimento de 17 genótipos de arroz integral, sete com pericarpo pigmentado e dez genótipos não-pigmentados. Ainda foi avaliada a inibição da enzima conversora de angiotensina I (ECA) e da -amilase por esses compostos, no arroz cru e cozido. O arroz pigmentado se mostrou rico em compostos fenólicos, em média da ordem de 4200 µg eq. ácido ferúlico/g, devido aos seus altos teores de FS, constituídos principalmente por antocianinas e proantocianidinas. Os FI, representados principalmente pelos ácidos fenólicos contribuíram com apenas 20% dos compostos fenólicos totais. O arroz não-pigmentado contém, em média, ao redor de 1000 µg eq. ácido ferúlico/g, distribuídos quase equitativamente entre a fração solúvel e insolúvel. O cozimento do arroz provocou redução nos teores de FT e alteração na proporção entre FS e FI. Essas alterações foram mais pronunciadas no arroz com pericarpo vermelho, afetando principalmente a fração solúvel. O arroz preto, contudo, manteve a proporção entre FS e FI após o cozimento. A -amilase não foi inibida de forma significativa pelos fenólicos das amostras de arroz cozido. O arroz pigmentado inibiu mais fortemente a ECA do que o arroz não-pigmentado, levando a crer que a pigmentação seja um fator importante. No entanto, entre os diferentes genótipos pigmentados, o perfil de fenólicos parece ser o fator determinante para a maior ou menor atividade inibitória. O cozimento do arroz reduziu significativamente a inibição da ECA pelos fenólicos, fato observado principalmente nos genótipos vermelhos, devido à diminuição dos teores de FS e da capacidade inibitória dos fenólicos presentes. O arroz preto se destacou por ter o maior teor de fenólicos solúveis e a maior ação inibidora da ECA, após o cozimento. / Rice (Oryza sativa L.) sustains at present about half of the world´s population. Consumption is mainly in its milled form, but brown rice has prompted further research due to bioactive compounds present in the pericarp of the grain. Some of the positive health effects have been attributed to radical scavenging activity and other biological effects such as inhibition of certain enzymes. In this study it was analyzed the contents of total, soluble and insoluble phenolic compounds of 17 different genotypes of brown rice as well as the effect of cooking. Seven genotypes had pigmented pericarp and ten were non-pigmented. In addition, the extracts from crude and cooked rice were tested for their capacity to inhibit the angiotensin I (ACE) converting enzyme and -amylase activities. Pigmented rice genotypes were highest in phenolic compounds, with an average of about 4200 µg ferulic acid eq./g, due to their high contents of soluble phenolics, mostly represented by anthocyanins and proanthocyanidins. Insoluble phenolics, represented mainly by phenolic acids, contributed with only 20% of total phenolics. Non-pigmented rice showed overall lower levels of phenolics. The mean content was about 1000 µg ferulic acid eq./g, almost equally distributed between the soluble and insoluble fractions. Levels of total phenolics were significantly reduced by rice cooking and proportions between soluble and insoluble fractions were altered. These alterations were more pronounced for pigmented rice, and soluble phenolics were the most affected. However, after cooking, black rice was the only that maintained the original proportion between soluble and insoluble phenolics. Alpha-amylase was not significantly inhibited by phenolics after cooking. Pigmented rice showed a potent inhibition of ACE, much higher than of non-pigmented rice, which seems to indicate that color of the pericarp is an important factor. Nevertheless, different profiles of phenolic compounds may explain why individual pigmented genotypes with similar phenolic levels can have different ACE inhibiting capacities. Rice cooking reduced significantly the inhibition of ACE by phenolics, which feature was more pronounced in pigmented rice due to the reduction of soluble phenolics and the activity of individual phenolics. Among pigmented rice, the highest soluble phenolic content and the most potent ACE inhibition after cooking was observed for black rice turning it the most distinguished notable.
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Papel da enzima conversora de angiotensina-I na regulação hematopoética de animais normais e nocautes dos receptores B1 de cininas. / Role of angiotensin-I converting enzyme in the regulation of the hematopoietic response normal and kinin receptor B1 kockout mice.Oliveira, Carlos Rocha 30 April 2008 (has links)
Evidências sobre a presença do sistema renina-angiotensina (SRA) na medula óssea e a possível participação da enzima conversora de angiotensina-I (ECA) na regulação hematopoética tem despertado o interesse da comunidade científica. Como a ECA também é um componente chave do sistema calicreína-cininas (SCC), é possível que elementos deste sistema, possam estar envolvidos no controle hematopoético. Assim, avaliamos a participação da ECA na regulação hematopoética de animais não modificados (WT) e nocautes dos receptores B1 de cininas (KOB1). Para isso, utilizamos técnicas de cultura de células de medula óssea, a saber: os ensaios clonogênicos em soft-ágar para granulócitos e macrófagos (CFU-GM) e o sistema de cultura líquida de longa duração (CLLD). Os resultados mostraram a presença da ECA em células das CLLD e indicaram a participação da enzima na proliferação de progenitores hematopoéticos possivelmente através do controle dos níveis de AcSDKP, pois o tratamento com o tetrapeptídeo e com captopril, reduziu significativamente o número CFU-GM in vitro e in vivo. Quando adicionado às CLLD, o AcSDKP foi capaz de aumentar significativamente a expressão do mRNA da ECA, sugerindo que seus níveis possam controlar a expressão gênica desta enzima. Em relação aos animais KOB1, os resultados mostraram maior atividade da ECA, acompanhado de aumento não significativo da expressão gênica e protéica da enzima. O tratamento das CLLD de animais WT com agonistas de receptores de cininas, não alterou a expressão gênica e a atividade da ECA. Assim, nossos dados sugerem que a ECA participa da regulação hematopoética neste modelo. No entanto, novos estudos serão necessários para a elucidação dos mecanismos envolvidos na expressão e/ou controle da atividade da ECA pelos receptores de cininas. / Evidences on the presence of the renin angiotensin system in the bone marrow and the possible participation of the angiotensin-I converting enzyme (ACE) in the hematopoietic regulation have aroused interest of the scientific community. As the ACE also is a common element of the kallikrein-kinin system (KKS), it is possible that elements of KKS, can be involved in the hematopoietic control. Thus, we evaluated the participation of the ACE on the hematopoietic regulation of wild-type (WT) and kinin receptor B1 knockout mice (KOB1). For this, we use techniques of bone marrow cell culture, to know the clonogenic assays for granulocyte-macrophage (GM-CFU) and the long term bone marrow cultures (LTBMC). The results shown the presence of the ACE in cells from LTBMC and its possible participation on hematopoietic proliferation through the control of AcSDKP levels, therefore the treatment with AcSDKP and captopril, decreased significantly the GM-CFU number in vitro and in vivo. When added to the LTBMC, the AcSDKP increase significantly the expression of ACE mRNA, suggesting that its levels could control the gene expression of this enzyme. In relation to KOB1 mice, the results shown increase of the ACE activity and not significant increase of the gene and protein expression of the enzyme. The treatment of the LTBMC of WT mice with kinins receptors agonists, did not modify the gene expression and the ACE activity. Thus, our data suggesting that ACE participate of the hematopoietic regulation in this model. However, new studies will be necessary to understand the involved mechanisms in the expression and/or control of ACE activity by kinins receptors.
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Utilização de hidrolisados enzimáticos de peixes para obtenção de peptídeos inibidores da enzima conversora da angiotensina I (ECA) / Utilization of fish enzimatic hydrolysates by obtaining of inhibitors peptides of the angiotensin I-converting enzyme (ACE)Neves, Renata Alexandra Moreira das 12 September 2005 (has links)
Peptídeos bioativos são de grande interesse tanto para a indústria farmacêutica como para a de alimentos e são obtidos a partir da hidrólise enzimática de várias fontes protéicas, como as do leite, glúten de milho, soja, e músculos de suínos, aves e peixes. Estes peptídeos podem desempenhar atividades benéficas para a saúde, entre elas, a regulação ou inibição de enzimas, com destaque à inibição da enzima conversora da angiotensina I (ECA). Esta enzima é responsável pela clivagem de dois importantes substratos envolvidos na regulação da pressão arterial, a angiotensina I e a bradicinina. Neste trabalho foi estudada a atividade inibitória da ECA em hidrolisados dos peixes tilápia tailandesa (Oreochromis niloticus - linhagem tailandesa) e corvina (Micropogonias furnien) . Os \"minced\" destes peixes foram hidrolisados com pepsina e proteases de Streptomyces griséus por 5 horas em condições ideais de pH e temperatura. A atividade inibitória foi avaliada pela medida da atividade residual da enzima sobre substrato sintético fluorescente. Os hidrolisados com um grau de hidrólise de cerca de 34% apresentaram atividade inibitória semelhante, com valor de IC50 = 0,040 e 0,036 mg proteína/mL, respectivamente para a tilápia e a corvina. Observou-se aumento da atividade inibitória com o progresso da hidrólise, sendo que este aumento também está relacionado com a especificidade das enzimas proteolíticas. Em outro experimento observou-se que os peptídeos presentes no hidrolisado de tilápia inibiram indistintamente os domínios C e N terminais da ECA, não demonstrando especificidade. A atividade inibitória dos hidrolisados foi mantida após submetê-los à ação de enzimas proteolíticas gastrointestinais, indicando a sua provável estabilidade \"in vivo\". Da mesma forma, o minced de tilápia quando incubado sucessivamente com pepsina/tripsina/quimotripsina produziu peptídeos ativos (IC50 = O,025mg proteína/mL). Apesar do reduzido grau de hidrólise obtido neste ensaio (17%), os peptídeos liberados apresentaram atividade inibitória elevada, confirmando que a atividade não está relacionada apenas com o grau de hidrólise, mas também com a sequência de aminoácidos, liberados em função da especificidade das enzimas. Concluiu-se que o consumo destes peixes, ou seus respectivos hidrolisados poderá eventualmente, auxiliar na prevenção e no tratamento não medicamentoso da hipertensão, embora estudos \"in vivo\" sejam necessários para comprovar as suas funções biológicas. / Bioactive peptides have been highly valued by pharmaceutical industries and by food industries as well. These peptides can be released by the enzymatic hydrolysis of various protein sources such as milk, com gluten, soybean, muscles of pigs, chicken and fish and have been recognized to exhibit important health benefits. Among these, the regulation or inhibition of enzymes, like the inhibition of the angiotensin I-converting enzyme (ACE) have been focused. This enzyme is responsible for the cleavage of two important substrates, angiotensin I and bradykinin, both of them involved with the regulation of blood pressure. In this study the inhibitory activity of hydrolysates from tilapia tailandesa (Oreochromis niloficus - linhagem tailandesa) and corvina (Micropogonias furnien) was evaluated. The hydrolysates of the minced fishes were produced in a 5-hour lasting controlled process under optimal conditions of pH and temperature by the sequential action of pepsin and enzymes from Streptomyces griseus. Inhibitory activity was evaluated by measuring the residual activity of the enzyme on a synthetic fluorescent peptidic substrate. The extent of hydrolysis was about 34% and the hydrolysates of tilapia and corvine showed similar inhibitory activity (IC50 of 0.040 and 0.036 mg protein/mL), respectively. An íncrease of activity proportional to the degree of hydrolysis was observed, as well as a relationship with the specificity of the enzymes used. In another experiment it was observed that the bioactive peptides present in the hydrolysate of tilapia did not show specificity for the C- and N-terminal catalytic domains of the angiotensin I-converting enzyme. The inhibitory activity of the hydrolysates was still active afier a further hydrolysis by gastrointestinal enzymes, which seems to indicate an eventual activity in vivo. In a similar way, when the minced tilapia was consecutively incubated with pepsine, trypsin, chymotrypsin active peptides were produced with an activity of IC50 = 0.025 mg protein/mL. Despite the low extend of hydrolysis of about 17%, a high inhibitory activity was observed confirming that activity is not only related to the degree of hydrolysis but also to the sequence of aminoacids and therefore, to the specificity of the enzymes as well. It was concluded that the intake of fish or fish hydrolysates has the potential to help control or to prevent hypertension by a non-drug food-based treatment.
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Έκφραση πολυπεπτιδίων των καταλυτικών τομέων του μετατρεπτικού ένζυμου της αγγειοτενσίνης-Ι και μελέτη της δομής αυτών σε διάλυμαΒαμβακάς, Σωτήριος-Σπυρίδων 24 February 2009 (has links)
Το μετατρεπτικό ένζυμο της αγγειοτενσίνης (ACE) είναι μία διπεπτιδυλκαρβοξυπεπτιδάση ψευδαργύρου που ανήκει στην οικογένεια των gluzincin
πεπτιδασών της οποίας η θερμολυσίνη θεωρείται ως πρωτότυπο μέλος. Το
ένζυμο πήρε το όνομά του από τη δυνατότητά του να μετατρέπει το βιολο-
γικώς ανενεργό δεκαπεπτίδιο αγγειοτενσίνη-Ι στο οκταπεπτίδιο αγγειοτεν-
σίνη-ΙΙ, το οποίο εμφανίζει ισχυρή αγγειοσυσπαστική δράση. Μία άλλη βασική δυνατότητα του ACE είναι η αδρανοποιήση του εννεαπεπτιδίου βραδυκινίνη που έχει αγγειοδιασταλτική δράση. Αυτές οι δύο σημαντικές ιδιότητες του ACE το καθιστούν ένα από τα σημαντικότερα συστατικά του συστήματος ρενίνης-αγγειοτενσίνης-αλδοστερόνης.
Υπάρχουν δύο ισομορφές του ACE που μεταγράφονται από το ίδιο γονίδιο
κατά τρόπο ιστοειδικό. Η σωματική ισομορφή του ACE, η οποία εμφανίζεται στην επιφάνεια των ενδοθηλιακών κυττάρων, είναι μία γλυκοπρωτεΐνη η
οποία αποτελείται από μία ενιαία, πολυπεπτιδική αλυσίδα 1306 αμινοξέων.
Η σπερματική ισομορφή που εμφανίζεται στους όρχεις και στα κύτταρα
σπέρματος είναι μία χαμηλότερης-μοριακής μάζας γλυκοπρωτεΐνη 732 αμινοξέων. Η σωματική ισομορφή αποτελείται από δύο ομόλογες περιοχές
(περιοχή Ν και C). Κάθε περιοχή περιέχει ένα ενεργό κέντρο με ένα συντηρημένο δεσμευτικό μοτίβο ψευδαργύρου HEXXH, όπου οι δύο ιστιδίνες
είναι οι δύο πρώτοι υποκαταστάτες του ιόντος ψευδαργύρου. Μετά από 24
αμινοξέα στην αλληλουχία του μορίου, βρίσκεται ένα γλουταμινικό οξύ που
είναι ο τρίτος υποκαταστάτης του ιόντος ψευδαργύρου. Η ύπαρξη αυτών
των Ν- και C- περιοχών είναι πιθανότατα το αποτέλεσμα ενός αρχέγονου
γεγονότος διπλασιασμού γονιδίων το οποίο έλαβε χώρα κατά την διάρκεια
της εξέλιξης των σπονδυλωτών. Οι δύο περιοχές εμφανίζουν εκλεκτικότητα έναντι διαφόρων υποστρωμάτων, αναστολέων και διαφορές στην απαιτούμενη συγκέντρωση ιόντων
χλωρίου προκειμένου να έχουν καταλυτική δραστικότητα. Υπάρχουν δύο
υποστρώματα τα οποία εμφανίζουν εκλεκτικότητα έναντι του Ν-ενεργού
κέντρου: το Ν-ακετυλ-σερυλασπαραγυλο-λυσυλ-προλυλ πεπτίδιο, το οποίο
ρυθμίζει τη διαφοροποίηση και τον πολλαπλασιασμό των πολυδύναμων αιμοποιητικών κυττάρων και το πεπτίδιο αγγειοτενσίνη-(1-7) που είναι το αποτέλεσμα της δράσης της βραδυκινίνης. Αφ' ετέρου, τα ενεργά κέντρα και
των δύο περιοχών καταλύουν την υδρόλυση της αγγειοτενσίνης-Ι και τη
βραδυκινίνης με παρόμοια αποτελασματικότητα. Εντούτοις, η αναστολή
του Ν-ενεργού κέντρου με το φωσφινικό πεπτίδιο RXP407 δεν έχει καμία
επίδραση στην ρύθμιση της αρτηριακής πίεσης. Διαγονιδιακά ποντίκια τα
οποία εκφράζουν μόνο το Ν-ενεργό κέντρο εμφανίζουν φαινότυπο παρόμοιο με αυτόν που εμφανίζεται σε ποντίκια στα οποία το γονιδίο του ACE
έχει απαλειφθεί πλήρως. Κατά συνέπεια, το C-ενεργό κέντρο φαίνεται να
είναι απαραίτητο και σημαντικό για τον έλεγχο της αρτηριακής πίεσης και
της καρδιαγγειακής λειτουργίας. Η σπερματική ισομορφή του ACE είναι
πανομοιότυπη με την C-περιοχή της σωματικής εκτός από μία μοναδική
ακολουθία 36 αμινοξέων που βρίσκεται στο Ν-τελικό άκρο του. Επίσης έχει
αποδειχθεί ότι η σπερματική ισομορφή του ACE διαδραματίζει σημαντικό
ρόλο στην ωρίμανση του σπέρματος και στη δέσμευση αυτού στο επιθήλιο
του ωαγωγού των ωοθηκών.
Ο στόχος αυτής της διατριβής ήταν α) η υπερέκφραση, σε βακτηριακά κύτταρα, ο καθαρισμός και η λήψη σε διαλυτή μορφή δύο πεπτιδίων του ACE
μεγέθους 108 αμινοξέων(Ala361-Gly468 (ACE_N), Ala959-Ser1066 (ACE_C)).
Αυτή η πειραματική προσέγγιση επελέγη λόγω της ευκολίας χειρισμού και
καλλιέργειας που εμφανίζουν τα βακτηριακά κύτταρα και λόγω της δυνατότητας της χρήση επισημασμένων με 15Ν ή/και 13C θρεπτικών μέσων. β) Η
κατοχή ενός τόσο μεγάλου πεπτιδίου σε διάλυμα, επισημασμένο ή μη, δίνει
τη δυνατότητα μελέτης του ως προς τα δομικά χαρακτηριστικά του χρησιμοποιώντας τη φασματοσκοπία κυκλικού διχροϊσμού ή/και πυρηνικού μαγνητικού συντονισμου (NMR).
Τα προαναφερθέντα πρωτεϊνικά τμήματα υπερεκφράστηκαν σε βακτηριακά
κύτταρα και ελήφθησαν σε καθαρή μορφή. Η καθαρότητά τους ήταν μεγαλύτερη από 99%. Η απόδοση για το πρωτεϊνικό τμήμα ACE_N ήταν 9mg και για το πρωτεϊνικό τμήμα ACE_C ήταν 6mg από 1L καλλιέργειας βακτηριακών κυττάρων. Τα τμήματα αυτά μελετήθηκαν ως προς την δευτεροταγή τους διαμόρφωση με φασματοσκοπία κυκλικού διχρωϊσμού. Τα αποτελέσματα της μελέτης αυτής έδειξαν ότι παρουσία 1,1,1-τριφθοροαιθανόλης, σε συγκέντρωση μεγαλύτερη από 60% και τα δύο τμήματα λαμβάνουν
διαμόρφωση η οποία βρίσκεται σε συμφωνία με τη θεωρητικώς υπολογιζόμενη και με αυτή που έχει βρεθεί από κρυσταλλογραφικές μελέτες του ενζύμου. Το αποτέλεσμα αυτό μερικώς επιβεβαιώθηκε για το πρωτεϊνικό
τμήμα ACE_N με τη μελέτη αυτού με φασματοσκοπία Πυρηνικού Μαγνητικού Συντονισμόυ. Η πλήρης επιβεβαίωση δεν κατέστει δυνατή λόγω της
αδυναμίας λήψης καλής ποιότητας φάσματος 2D-NOESY.
Συμπερασματικά, η περιγραφόμενη σε αυτή τη Διατριβή μεθοδολογία εμφανίζει πλεονεκτήματα όσον αφορά την ταχύτητα παραγωγής, τη δυνατότητα καθαρισμού των παραγομένων πεπτιδίων, καθώς και καλή επαναληψιμότητα. Οι in vitro επαναδιατεταγμένες ανασυνδυασμένες πρωτεΐνες εμφάνισαν χαρακτηριστικά δευτεροταγούς δομής, όμοια σχεδόν με αυτά που έχουν
αποκαλυφθεί από την κρυσταλλογραφική μελέτη του ACE, έχοντας υψηλό ποσοστό σε α-έλικα. Κατά συνέπεια, αυτή η μελέτη περιγράφει ένα αποτελεσματικό σύστημα για την παραγωγή μεγάλων ποσοτήτων καθαρών πεπτιδίων του ACE που μπορούν να χρησιμοποιηθούν για διάφορες μελέτες. / Angiotensin converting enzyme (ACE) is a gluzincin zinc dipeptidyl carboxypeptidase
I, of which thermolysin is considered the prototypical member.
This enzyme took its name from its ability to convert the decapeptide
Angiotensin-I to octapeptide Angiotensin-II, which is a highly potent vasoconstrictor.
Another basic ability is to inactivate bradykinin, a vasodilatory
peptide. These two major activities render ACE through the renin–
angiotensin–aldosterone system.
There are two isoforms of ACE that are transcribed from the same gene in a
tissue-specific manner. Somatic ACE, which is present in brush-border
epithelial cells and endothelial cells, exists as a glycoprotein composed of a
single, large polypeptide chain of 1,306 amino acids, whereas in sperm cells
it is a lower-molecular-mass glycoform of 732 amino acids. The somatic
form consists of two homologous domains (N and C domain). Each domain
contains an active site with a conserved HEXXH zinc binding motif, where
the two histidines are zinc ligands, with a glutamate 24 residues downstream
forming the third ligand. These N- and C-domains most likely are the result
of an ancient gene duplication event that occurred during vertebrate evolution.
The two domains differ in their substrate specificities, inhibitor, chloride
activation profiles, and physiological functions. There are two N-domainspecific
substrates: the peptide N-acetyl-serylaspartyl-lysyl-proline, which
regulates haematopoietic stem cell differentiation and proliferation; and the
bradykinin-potentiating peptide angiotensin-(1-7). On the other hand, the
active sites of both domains catalyse the hydrolysis of angiotensin I and the
vasodilator bradykinin with similar efficiency. However, inhibition of the N
domain with a phosphinic peptide RXP407 has no effect on blood pressure regulation and expression in transgenic mice of the N domain alone produces
a phenotype similar to that seen in complete ACE knockout mice.
Thus, the C domain seems to be necessary and sufficient for controlling
blood pressure and cardiovascular function, suggesting that the C domain is
the dominant angiotensin-converting site. Testis ACE is identical to the Cterminal
half of somatic ACE, except for a unique 36-residue sequence constituting
its amino terminus. It has also been shown that testis ACE is
thought to play a role in sperm maturation and the binding of sperm to the
oviduct epithelium.
Objective of this thesis was the overexpression, in bacterial cells, purification
and solubilazation of two ACE peptides of 108 aa (Ala361-Gly468
(ACE_N), Ala959-Ser1066 (ACE_C)). This experimental approach was chosen
because of the ease of culturing bacterial cells and the advantage of using
label mediums with 15N and/or 13C. Such large peptides labelled or nonlabelled,
can be studied for their structural features using circular dichroism
and/or NMR spectroscopy.
The above mentioned protein fragments overexpressed in bacteria and purified.
Their purity was greater than 99%. The yield was 9mg for ACE_N and
6mg for ACE_C protein fragment from 1L bacterial culture. Their secondary
structure was studied using circular dichroism spectroscopy. Deconvolution
of ACE_N and ACE_C CD spectra had shown that the presence of
trifluoroethanol, at concentrations of 60% or higher, is necessary for the correct
folding of the protein. This result was partially confirmed for ACE_N
protein fragment by Nuclear Magnetic Resonance spectroscopy. Complete
conformation was not succeded due to the inability of recording the 2DNOESY
spectrum of ACE_N.
Conclusively, the described procedure in this research proved to be advantageous
in speed and facility of purification. It demonstrated good reproductively
for ACE peptides during purification. The in vitro refolded recombinant proteins had almost identical secondary features compared with these
found using crystallographic data, with a high content in a-helix secondary
structure motif. Thus, this study offers an effective system for producing
large amounts of pure ACE peptides which can be used for several studies.
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Papel da enzima conversora de angiotensina-I na regulação hematopoética de animais normais e nocautes dos receptores B1 de cininas. / Role of angiotensin-I converting enzyme in the regulation of the hematopoietic response normal and kinin receptor B1 kockout mice.Carlos Rocha Oliveira 30 April 2008 (has links)
Evidências sobre a presença do sistema renina-angiotensina (SRA) na medula óssea e a possível participação da enzima conversora de angiotensina-I (ECA) na regulação hematopoética tem despertado o interesse da comunidade científica. Como a ECA também é um componente chave do sistema calicreína-cininas (SCC), é possível que elementos deste sistema, possam estar envolvidos no controle hematopoético. Assim, avaliamos a participação da ECA na regulação hematopoética de animais não modificados (WT) e nocautes dos receptores B1 de cininas (KOB1). Para isso, utilizamos técnicas de cultura de células de medula óssea, a saber: os ensaios clonogênicos em soft-ágar para granulócitos e macrófagos (CFU-GM) e o sistema de cultura líquida de longa duração (CLLD). Os resultados mostraram a presença da ECA em células das CLLD e indicaram a participação da enzima na proliferação de progenitores hematopoéticos possivelmente através do controle dos níveis de AcSDKP, pois o tratamento com o tetrapeptídeo e com captopril, reduziu significativamente o número CFU-GM in vitro e in vivo. Quando adicionado às CLLD, o AcSDKP foi capaz de aumentar significativamente a expressão do mRNA da ECA, sugerindo que seus níveis possam controlar a expressão gênica desta enzima. Em relação aos animais KOB1, os resultados mostraram maior atividade da ECA, acompanhado de aumento não significativo da expressão gênica e protéica da enzima. O tratamento das CLLD de animais WT com agonistas de receptores de cininas, não alterou a expressão gênica e a atividade da ECA. Assim, nossos dados sugerem que a ECA participa da regulação hematopoética neste modelo. No entanto, novos estudos serão necessários para a elucidação dos mecanismos envolvidos na expressão e/ou controle da atividade da ECA pelos receptores de cininas. / Evidences on the presence of the renin angiotensin system in the bone marrow and the possible participation of the angiotensin-I converting enzyme (ACE) in the hematopoietic regulation have aroused interest of the scientific community. As the ACE also is a common element of the kallikrein-kinin system (KKS), it is possible that elements of KKS, can be involved in the hematopoietic control. Thus, we evaluated the participation of the ACE on the hematopoietic regulation of wild-type (WT) and kinin receptor B1 knockout mice (KOB1). For this, we use techniques of bone marrow cell culture, to know the clonogenic assays for granulocyte-macrophage (GM-CFU) and the long term bone marrow cultures (LTBMC). The results shown the presence of the ACE in cells from LTBMC and its possible participation on hematopoietic proliferation through the control of AcSDKP levels, therefore the treatment with AcSDKP and captopril, decreased significantly the GM-CFU number in vitro and in vivo. When added to the LTBMC, the AcSDKP increase significantly the expression of ACE mRNA, suggesting that its levels could control the gene expression of this enzyme. In relation to KOB1 mice, the results shown increase of the ACE activity and not significant increase of the gene and protein expression of the enzyme. The treatment of the LTBMC of WT mice with kinins receptors agonists, did not modify the gene expression and the ACE activity. Thus, our data suggesting that ACE participate of the hematopoietic regulation in this model. However, new studies will be necessary to understand the involved mechanisms in the expression and/or control of ACE activity by kinins receptors.
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Efeito do cozimento e ação dos compostos fenólicos de arroz integral na inibição da enzima conversora de angiotensina I e da alfa-amilase / Cooking effect and inhibition of angiotensin I converting enzyme and alpha-amylase by compound phenolics from brown riceIsabel Louro Massaretto 26 March 2009 (has links)
O arroz (Oryza sativa L.), principal alimento para cerca de metade da população mundial, é consumido principalmente na forma polida. Contudo, o arroz integral vem se destacando, devido principalmente aos compostos bioativos presentes nas camadas mais externas do grão. Os benefícios à saúde são atribuídos, em parte, à sua capacidade de combater radicais livres e exercer atividades biológicas, tais como a inibição de determinadas enzimas. Neste trabalho foram analisados os teores de compostos fenólicos totais (FT), solúveis (FS) e insolúveis (FI) e avaliado o efeito do cozimento de 17 genótipos de arroz integral, sete com pericarpo pigmentado e dez genótipos não-pigmentados. Ainda foi avaliada a inibição da enzima conversora de angiotensina I (ECA) e da -amilase por esses compostos, no arroz cru e cozido. O arroz pigmentado se mostrou rico em compostos fenólicos, em média da ordem de 4200 µg eq. ácido ferúlico/g, devido aos seus altos teores de FS, constituídos principalmente por antocianinas e proantocianidinas. Os FI, representados principalmente pelos ácidos fenólicos contribuíram com apenas 20% dos compostos fenólicos totais. O arroz não-pigmentado contém, em média, ao redor de 1000 µg eq. ácido ferúlico/g, distribuídos quase equitativamente entre a fração solúvel e insolúvel. O cozimento do arroz provocou redução nos teores de FT e alteração na proporção entre FS e FI. Essas alterações foram mais pronunciadas no arroz com pericarpo vermelho, afetando principalmente a fração solúvel. O arroz preto, contudo, manteve a proporção entre FS e FI após o cozimento. A -amilase não foi inibida de forma significativa pelos fenólicos das amostras de arroz cozido. O arroz pigmentado inibiu mais fortemente a ECA do que o arroz não-pigmentado, levando a crer que a pigmentação seja um fator importante. No entanto, entre os diferentes genótipos pigmentados, o perfil de fenólicos parece ser o fator determinante para a maior ou menor atividade inibitória. O cozimento do arroz reduziu significativamente a inibição da ECA pelos fenólicos, fato observado principalmente nos genótipos vermelhos, devido à diminuição dos teores de FS e da capacidade inibitória dos fenólicos presentes. O arroz preto se destacou por ter o maior teor de fenólicos solúveis e a maior ação inibidora da ECA, após o cozimento. / Rice (Oryza sativa L.) sustains at present about half of the world´s population. Consumption is mainly in its milled form, but brown rice has prompted further research due to bioactive compounds present in the pericarp of the grain. Some of the positive health effects have been attributed to radical scavenging activity and other biological effects such as inhibition of certain enzymes. In this study it was analyzed the contents of total, soluble and insoluble phenolic compounds of 17 different genotypes of brown rice as well as the effect of cooking. Seven genotypes had pigmented pericarp and ten were non-pigmented. In addition, the extracts from crude and cooked rice were tested for their capacity to inhibit the angiotensin I (ACE) converting enzyme and -amylase activities. Pigmented rice genotypes were highest in phenolic compounds, with an average of about 4200 µg ferulic acid eq./g, due to their high contents of soluble phenolics, mostly represented by anthocyanins and proanthocyanidins. Insoluble phenolics, represented mainly by phenolic acids, contributed with only 20% of total phenolics. Non-pigmented rice showed overall lower levels of phenolics. The mean content was about 1000 µg ferulic acid eq./g, almost equally distributed between the soluble and insoluble fractions. Levels of total phenolics were significantly reduced by rice cooking and proportions between soluble and insoluble fractions were altered. These alterations were more pronounced for pigmented rice, and soluble phenolics were the most affected. However, after cooking, black rice was the only that maintained the original proportion between soluble and insoluble phenolics. Alpha-amylase was not significantly inhibited by phenolics after cooking. Pigmented rice showed a potent inhibition of ACE, much higher than of non-pigmented rice, which seems to indicate that color of the pericarp is an important factor. Nevertheless, different profiles of phenolic compounds may explain why individual pigmented genotypes with similar phenolic levels can have different ACE inhibiting capacities. Rice cooking reduced significantly the inhibition of ACE by phenolics, which feature was more pronounced in pigmented rice due to the reduction of soluble phenolics and the activity of individual phenolics. Among pigmented rice, the highest soluble phenolic content and the most potent ACE inhibition after cooking was observed for black rice turning it the most distinguished notable.
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Utilização de hidrolisados enzimáticos de peixes para obtenção de peptídeos inibidores da enzima conversora da angiotensina I (ECA) / Utilization of fish enzimatic hydrolysates by obtaining of inhibitors peptides of the angiotensin I-converting enzyme (ACE)Renata Alexandra Moreira das Neves 12 September 2005 (has links)
Peptídeos bioativos são de grande interesse tanto para a indústria farmacêutica como para a de alimentos e são obtidos a partir da hidrólise enzimática de várias fontes protéicas, como as do leite, glúten de milho, soja, e músculos de suínos, aves e peixes. Estes peptídeos podem desempenhar atividades benéficas para a saúde, entre elas, a regulação ou inibição de enzimas, com destaque à inibição da enzima conversora da angiotensina I (ECA). Esta enzima é responsável pela clivagem de dois importantes substratos envolvidos na regulação da pressão arterial, a angiotensina I e a bradicinina. Neste trabalho foi estudada a atividade inibitória da ECA em hidrolisados dos peixes tilápia tailandesa (Oreochromis niloticus - linhagem tailandesa) e corvina (Micropogonias furnien) . Os \"minced\" destes peixes foram hidrolisados com pepsina e proteases de Streptomyces griséus por 5 horas em condições ideais de pH e temperatura. A atividade inibitória foi avaliada pela medida da atividade residual da enzima sobre substrato sintético fluorescente. Os hidrolisados com um grau de hidrólise de cerca de 34% apresentaram atividade inibitória semelhante, com valor de IC50 = 0,040 e 0,036 mg proteína/mL, respectivamente para a tilápia e a corvina. Observou-se aumento da atividade inibitória com o progresso da hidrólise, sendo que este aumento também está relacionado com a especificidade das enzimas proteolíticas. Em outro experimento observou-se que os peptídeos presentes no hidrolisado de tilápia inibiram indistintamente os domínios C e N terminais da ECA, não demonstrando especificidade. A atividade inibitória dos hidrolisados foi mantida após submetê-los à ação de enzimas proteolíticas gastrointestinais, indicando a sua provável estabilidade \"in vivo\". Da mesma forma, o minced de tilápia quando incubado sucessivamente com pepsina/tripsina/quimotripsina produziu peptídeos ativos (IC50 = O,025mg proteína/mL). Apesar do reduzido grau de hidrólise obtido neste ensaio (17%), os peptídeos liberados apresentaram atividade inibitória elevada, confirmando que a atividade não está relacionada apenas com o grau de hidrólise, mas também com a sequência de aminoácidos, liberados em função da especificidade das enzimas. Concluiu-se que o consumo destes peixes, ou seus respectivos hidrolisados poderá eventualmente, auxiliar na prevenção e no tratamento não medicamentoso da hipertensão, embora estudos \"in vivo\" sejam necessários para comprovar as suas funções biológicas. / Bioactive peptides have been highly valued by pharmaceutical industries and by food industries as well. These peptides can be released by the enzymatic hydrolysis of various protein sources such as milk, com gluten, soybean, muscles of pigs, chicken and fish and have been recognized to exhibit important health benefits. Among these, the regulation or inhibition of enzymes, like the inhibition of the angiotensin I-converting enzyme (ACE) have been focused. This enzyme is responsible for the cleavage of two important substrates, angiotensin I and bradykinin, both of them involved with the regulation of blood pressure. In this study the inhibitory activity of hydrolysates from tilapia tailandesa (Oreochromis niloficus - linhagem tailandesa) and corvina (Micropogonias furnien) was evaluated. The hydrolysates of the minced fishes were produced in a 5-hour lasting controlled process under optimal conditions of pH and temperature by the sequential action of pepsin and enzymes from Streptomyces griseus. Inhibitory activity was evaluated by measuring the residual activity of the enzyme on a synthetic fluorescent peptidic substrate. The extent of hydrolysis was about 34% and the hydrolysates of tilapia and corvine showed similar inhibitory activity (IC50 of 0.040 and 0.036 mg protein/mL), respectively. An íncrease of activity proportional to the degree of hydrolysis was observed, as well as a relationship with the specificity of the enzymes used. In another experiment it was observed that the bioactive peptides present in the hydrolysate of tilapia did not show specificity for the C- and N-terminal catalytic domains of the angiotensin I-converting enzyme. The inhibitory activity of the hydrolysates was still active afier a further hydrolysis by gastrointestinal enzymes, which seems to indicate an eventual activity in vivo. In a similar way, when the minced tilapia was consecutively incubated with pepsine, trypsin, chymotrypsin active peptides were produced with an activity of IC50 = 0.025 mg protein/mL. Despite the low extend of hydrolysis of about 17%, a high inhibitory activity was observed confirming that activity is not only related to the degree of hydrolysis but also to the sequence of aminoacids and therefore, to the specificity of the enzymes as well. It was concluded that the intake of fish or fish hydrolysates has the potential to help control or to prevent hypertension by a non-drug food-based treatment.
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Étude moléculaire in vitro du mode d'action de peptides bioactifs issus de protéines de lait bovin : peptides inhibiteurs de l'enzyme de conversion de l'angiotensine I et caseinophosphopeptides chélateurs de minéraux / In vitro molecular study of the action mode of bioactive peptides from bovine milk proteins : angiotensin I-converting enzyme inhibitory peptides and mineral-chelating caseinophosphopeptidesZidane, Faïza 10 December 2012 (has links)
Les protéines du lait bovin sont la source la plus importante en peptides bioactifs qui permettraient de maintenir le capital-Santé du consommateur. Nous nous sommes intéressés aux peptides inhibiteurs de l'enzyme de conversion de l'angiotensine I (ECA) et aux caséinophosphopeptides (CPP) chélateurs de minéraux pour étudier in vitro leur mécanisme d'interaction avec leurs cibles moléculaires. En effet, les peptides d'origine alimentaire, inhibiteurs de l'ECA (IEC) contribueraient à une prévention de l'hypertension. Pour comprendre la relation entre la séquence de ces peptides et leur pouvoir IEC, les paramètres d'inhibition de l'ECA somatique de poumon de lapin, qui possède 2 domaines N et C ayant chacun un site actif, par des peptides (FALPQYLK, FALPQY, ALPMHIR, IPP et VPP) issus de protéines du lait et des peptides dérivés ont été étudiés. De plus, l'interaction entre certains de ces peptides avec l'ECA somatique humaine a été caractérisée par la technologie Biacore®. La cartographie des sites de liaison de FALPQY en compétition avec le captopril (inhibiteur compétitif des 2 sites actifs de l'ECA) et le peptide BPP-11b (inhibiteur sélectif du domaine C de l'ECA) montre que ce peptide se fixe au niveau des 2 sites actifs de l'ECA. Par ailleurs, les CPP sont un bon moyen de corriger les carences minérales car ils sont capables de former des complexes solubles avec les cations, améliorant ainsi leur biodisponibilité. L'interaction entre le CPP [bêta]-CN (f1-25)4P et Ca2+, Mg2+, Zn2+ et Cu2+ a été étudiée par microcalorimétrie de titration isotherme : 1 mole de CPP fixe 2 moles de Ca2+, de Mg2+ ou de Zn2+ à pH 8, avec des constantes d'affinité faibles, mais ne fixe pas Cu2+ / Bovine milk proteins are the most important source of bioactive peptides. These peptides may contribute to maintain optimal health state. In the current study, we attempted to elucidate in vitro the molecular interaction mode between both angiotensin I-Converting enzyme (ACE) inhibitory peptides and mineral-Chelating caseinophosphopeptides (CPP). Indeed, ACE inhibitory peptides from food may provide a natural and safe alternative to prevent hypertension. In order to better understand the relationship between the sequence of ACE inhibitory peptides and their inhibitory potency, the inhibition parameters of rabbit lung somatic ACE (that possesses 2 domains, N and C, which are both catalytically active) by bovine milk peptides (FALPQYLK, FALPQY, ALPMHIR, IPP, and VPP) and other peptides with related sequence were investigated. Moreover, the interaction between some peptides and their derivatives with human somatic ACE was analyzed by Biacore® technology. The mapping of FALPQY-ACE interaction sites in competition with captopril (a competitive inhibitor for both sites) and also with BPP-11b (a selective inhibitor of the C-Domain active site) showed that FALPQY binds at or near the two active sites located on the 2 domains of ACE. In addition, CPP efficiently bind cations of nutritional interest by forming soluble complexes which prevent the precipitation of minerals at alkaline pH and increasing thus their bioavailability. The interaction between [beta]-CN (f1-25)4P, and Ca2+, Mg2+, Zn2+, and Cu2+ cations, was characterized by isothermal titration calorimetry: 1 mole of [beta]-CN (f1-25)4P binds 2 moles of Ca2+, Mg2+, and Zn2+ at a pH 8, with a low affinity, but does not bind Cu2+ cation
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