Estudo comparativo das características bioquímicas funcionais e especificidade catalítica de aspartil, cisteíno e serino peptidases fúngicas / Comparative study of functional biochemical characteristics and catalytic specificity of aspartyl, cysteine and serine fungal peptidases

Silva, Ronivaldo Rodrigues da [UNESP]

12 February 2016

Submitted by RONIVALDO RODRIGUES DA SILVA (rds.roni@yahoo.com.br) on 2016-03-01T13:46:53Z No. of bitstreams: 1 Tese Doutorado RONIVALDO R. SILVA.pdf: 3318357 bytes, checksum: 82fadd527a2ede34e2a0a237a881e8f8 (MD5) / Approved for entry into archive by Ana Paula Grisoto (grisotoana@reitoria.unesp.br) on 2016-03-01T18:27:48Z (GMT) No. of bitstreams: 1 silva_rr_dr_sjrp.pdf: 3318357 bytes, checksum: 82fadd527a2ede34e2a0a237a881e8f8 (MD5) / Made available in DSpace on 2016-03-01T18:27:48Z (GMT). No. of bitstreams: 1 silva_rr_dr_sjrp.pdf: 3318357 bytes, checksum: 82fadd527a2ede34e2a0a237a881e8f8 (MD5) Previous issue date: 2016-02-12 / Coordenação de Aperfeiçoamento de Pessoal de Nível Superior (CAPES) / Aspártico (E.C. 3.4.23), cisteíno (E.C. 3.4.22) e serino peptidases (E.C. 3.4.21) são endopeptidases, cujos modos de ação são dependentes de resíduos de ácido aspártico, cisteína e serina presentes no sítio catalítico, respectivamente. Atualmente, vários estudos são realizados na busca por novas enzimas com relevantes propriedades bioquímicas para aplicação industrial. Neste contexto, nós propomos a produção de enzimas em bioprocesso submerso, purificação, estudo das propriedades bioquímicas e determinação da especificidade catalítica das peptidases secretadas pelos fungos filamentosos Rhizomucor miehei, Phanerochaete chrysosporium e Leptosphaeria sp. Inicialmente, após produção por bioprocesso submerso, estas enzimas foram purificadas utilizando cromatografias de exclusão molecular e troca iônica. Em ensaios de inibidores na atividade enzimática, notamos inibição das peptidases por pepstatina A (R. miehei), ácido iodoacético/N-Etilmaleimida (P. chrysosporium) e fluoreto de fenil metil sulfonila (Leptosphaeria sp), sendo então definidas como aspártico, cisteíno e serino peptidases, respectivamente. Por SDS-PAGE (12%), as massas moleculares foram estimadas em 37 kDa (aspártico), 23 kDa (cisteíno) e 35 kDa (serino). O máximo de atividade proteolítica foi alcançado em pH 5,5 e 55 ºC para peptidase aspártica secretada por R. miehei; pH 7 e faixa de temperatura 45-55 ºC para cisteíno peptidase secretada por P. chrysosporium, e pH 7 e 45 ºC para serino peptidase secretada por Leptosphaeria sp. Sob efeito de incubação a diferentes pH, a peptidase aspártica mostrou-se estável em condições ácidas (pH 3-5); cisteíno peptidase foi estável em ampla faixa de pH (pH 4-9), e serino peptidase mostrou-se mais estável em condições com tendências alcalinas e pH ligeiramente ácido (pH 5-9). Em todas estas faixas de pH citadas, as peptidases apresentaram atividade proteolítica acima de 80% por 1 hora de incubação. Quanto à estabilidade térmica, a cisteíno peptidase mostrou-se mais termoestável dentre as três enzimas e serino peptidase descreveu a menor tolerância à temperatura. Em incubação com agentes desnaturantes, observamos redução na atividade proteolítica sob efeito de surfactantes iônicos (0,02-1%): dodecil sulfato de sódio (SDS) e brometo de cetil-trimetil amônio (CTAB); íon cobre II (5 mM); Ditiotreitol (DTT) e guanidina (ambos na faixa de 10-200 mM) para todas as peptidases. Por último, em estudo de especificidade catalítica destas enzimas, observamos a preferência por aminoácidos aromáticos (F e W), básicos (K e R) e apolares (em particular, resíduo de metionina) para peptidase aspártica. Alta especificidade descrita por cisteíno peptidase, cuja preferência catalítica é notória por aminoácidos básicos (K, H e R), especialmente na posição P3 e lisina-dependência para catálise na posição P'3. Em serino peptidase, notamos maior aceitação por aminoácidos apolares (G, I, L, M e V), básicos (H e R) e polares neutros (N e Q) para as diferentes posições avaliadas no substrato. / Aspartic (EC 3.4.23), cysteine (EC 3.4.22) and serine peptidases (EC 3.4.21) are endopeptidases whose modes of action are dependent on aspartic acid, cysteine and serine residues present in the catalytic site, respectively. Currently, several studies are conducted in the search for new enzymes with relevant biochemical properties for industrial application. In this context, we propose the production of enzymes in submerged bioprocess, purification, the study of biochemical properties and determining the catalytic specificity peptidases secreted by the filamentous fungus Rhizomucor miehei, Phanerochaete chrysosporium and Leptosphaeria sp. Initially, after production submerged bioprocess, these enzymes have been purified using size-exclusion and ion exchange chromatographies. In the effect of inhibitors on enzyme activity, we note peptidase inhibition by pepstatin A (R. miehei), iodoacetic acid/ N-Ethylmaleimide (P. chrysosporium) and phenyl methyl sulfonyl fluoride (Leptosphaeria sp), suggesting that these enzymes are aspartic, cysteine and serine peptidases, respectively. For SDS-PAGE (12%), molecular weights were estimated at 37 kDa (aspartic), 23 kDa (cysteine) and 35 kDa (serine). Maximum proteolytic activity was achieved at pH 5.5 and 55 °C for aspartic peptidase secreted by R. miehei; pH 7 and temperature range 45-55 °C for cysteine peptidase secreted by P. chrysosporium and pH 7 and 45 °C for serine peptidase secreted by Leptosphaeria sp. Under incubation at different pH effect, aspartic peptidase was stable under acidic conditions (pH 3-5); cysteine peptidase was stable in wide pH range (pH 4-9), and serine peptidase was more stable under alkaline conditions and pH slightly acidic (pH 5-9). In all these pH ranges mentioned, peptidases showed proteolytic activity above 80% by 1 hour incubation. As regards the thermal stability, cysteine peptidase was more thermostable enzyme and serine peptidase described the lowest temperature tolerance. In incubation with denaturing agents, we observed a decrease in proteolytic activity under the effect of ionic surfactant (0.02-1%) sodium dodecyl sulfate (SDS) bromide and cetyl-trimethyl ammonium bromide (CTAB); copper (II) ion (5 mM); Dithiothreitol (DTT) and guanidine (both in the range of 10-200 mM) for all peptidases. Finally, the study of catalytic specificity of these enzymes, we found a preference for aromatic amino acids (F and W), basic (K and R) and nonpolar (in particular, methionine residue) to aspartic peptidase. High specificity described by cysteine peptidase, which a catalytic preference is notorious for basic amino acids (K, R and H), especially in position P3 and lysine-dependence for catalysis at position P'3. In serine peptidase, for different evaluated positions, we noticed greater acceptance by nonpolar amino acids (G, I, L, M and V), basic (M and R) and neutral polar (N and Q).

Aspártico peptidase

Cisteino peptidase

Serino peptidase

Rhizomucor miehei

Phanerochaete chrysosporium

Leptosphaeria sp.

Aspartic peptidase

Cysteine peptidase

Serine peptidase

Expressão e caracterização bioquímica parcial de uma serinoprotease recombinante da peçonha de Bothrops pauloensis

Costa, Guilherme Nunes Moreira

29 July 2014

Conselho Nacional de Desenvolvimento Científico e Tecnológico / CHAPTER II: The snake venom is composed by a diversity of biomolecules with many actions on physiological processes. The serine peptidases are a group of proteases present in the constitution of the venom, capable of interfering on several points of hemostasis. Some serine peptidases has thrombin-like activity, what makes them targets on the development of therapeutics agentes on the treatment of many hemostatic disorders. In this study, a recombinant thrombin-like serine peptidase called rBpSP-II was obtained from the cDNA of the venom gland of the snake Bothrops pauloensis and biochemically characterized. The cDNA correspondent to rBpSP-II was cloned on the pPICZαA vector and inserted on the methylotrophic yeast Pichia pastoris KM71H for the heterologous expression. This enzyme showed single band when analised on SDS-PAGE with approximated molecular mass of 44,5 kDa under reducing conditions. The enzyme rBpSP-II showed clotting activity on bovine plasma and proteolytic activity on fibrinogen, cleaving exclusively the Aα chain. The evaluation of rBpSP-II activity on chromogenic substrates showed that the enzyme has thrombin-like activity due to its capacity to hydrolyze the thrombin substrate. / CAPÍTULO II: A peçonha de serpente é composta por uma diversidade de biomoléculas com inúmeras ações sobre os processos fisiológicos. As serinoproteases são um grupo de proteases presentes na constituição da peçonha, capazes de interferir em diversos pontos da hemostasia. Algumas serinoproteases possuem atividade semelhante à trombina, o que as tornam alvos de interesse no desenvolvimento de agentes terapêuticos no tratamento de desordens hemostáticas. Neste estudo, uma serinoprotease thrombin-like recombinante denominada rBpSP-II foi obtida a partir do cDNA da glândula da peçonha da serpente Bothrops pauloensis e caracterizada bioquimicamente. O cDNA correspondente à rBpSP-II foi clonado no vetor pPICZαA e inserido na levedura metilotrófica Pichia pastoris KM71H para a realização da expressão heteróloga. Esta enzima apresentou banda única quando analisada em SDS-PAGE com massa molecular aproximada de 44.5 kDa sob condições redutoras. A rBpSP-II apresentou atividade coagulante sobre plasma bovino e atividade proteolítica sobre o fibrinogênio, clivando preferencialmente a cadeia Aα. A avaliação da atividade da rBpSP-II sobre substratos cromogênicos demonstrou que a enzima possui atividade thrombin-like devido a sua capacidade de hidrolisar o substrato da trombina. / Mestre em Genética e Bioquímica

Bothrops pauloensis

Peçonha de serpente

Thrombin-like

Serinoprotease

Expressão heteróloga

Serpente peçonhenta - Peçonha

Bothrops

Snake venom

Serine peptidase

Heterologous expression

CNPQ::CIENCIAS BIOLOGICAS::GENETICA

Chymotrypsin-like peptidases in insects

Bröhan, Gunnar

18 August 2010

Digestion of proteins in the midgut of lepidopteran larvae relies on different types of peptidases, among the trypsins and chymotrypsins. In this work four chymotrypsinlike peptidases (MsCTLP1–4) were identified from the larval midgut of M. sexta, which are distantly related to another chymotrypsin (MsCT), a previously described peptidase present in the larval midgut of M. sexta. MsCTLP1–4 fit perfectly into a novel subgroup of insect CTLPs by sequence similarity and by the replacement of GP by SA in the highly conserved GDSGGP motif. Examination of MsCTLP expression in different tissues showed that most of the peptidases were predominantly expressed in the anterior and median midgut, while some were found in the Malpighian tubules. Expression analysis of MsCTLPs at different physiological states revealed that the mRNA amounts did not differ considerably in feeding and starving larvae except for MsCTLP2, whose mRNA dropped significantly upon starvation. During molting, however, the mRNA amounts of all MsCTLPs dropped significantly. Immunological determination of MsCTLP1 amounts showed that the mature peptidase was only detectable in the gut lumen of feeding and re-fed larvae, but not in that of starving or molting larvae, suggesting that MsCTLP1 secretion is suspended during starvation or molt. Differential regulation of transcript levels as well as their partial expression in Malpighian tubules might point to a role, which is distinct from digestion for at least some MsCTLPs. In line with this assumption, MsCTLP1 was shown to interact with the chitin synthase 2 (MsCHS2), necessary for chitin synthesis in the course of peritrophic matrix formation in the midgut of M. sexta. The occurrence of this interaction in vivo is supported by colocalization and co-immunoprecipitation. The data suggest that chitin synthesis is controlled by an intestinal proteolytic signaling cascade linking chitin synthase activity to the nutritional state of the larvae. As MsCTLP1 appears to be involved in such signaling cascades, other midgut peptidases could have other targets and may therefore regulate different activities. To gain more insight into the functions of CTLPs, the gene family encoding these peptidases in the genome of the red flour beetle, T. castaneum, was analyzed. Using an extended search pattern, 14 TcCTLP genes were identified that encode peptidases with S1 specificity pocket residues typically found in chymotrypsin-like enzymes. Analysis of the expression patterns of seven TcCTLP genes at various developmental stages revealed that some TcCTLP genes were exclusively expressed in feeding larval and adult stages (TcCTLP-5A/B, TcCTLP-6A). Others were also detected in non-feeding embryonic (TcCTLP-5C, TcCTLP-6D) and pupal stages (TcCTLP-5C, TcCTLP- 6C/D/E). TcCTLP genes were expressed predominantly in the midgut where they presumably function in digestion. However, TcCTLP-5C and TcCTLP-6C also showed considerable expression in the carcass. The latter two genes might therefore encode peptidases that act as molting fluid enzymes. To test this hypothesis, western blots were performed using protein extracts from larval exuviae. The extracts reacted with antibodies to TcCTLP-5C and TcCTLP-6C suggesting that the corresponding peptidases are secreted into the molting fluid. Finally, systemic RNAi experiments were performed. While injections of dsRNAs to TcCTLP-5A/B and TcCTLP-6A/D/E into penultimate larvae did not affect growth or development, injection of dsRNA for TcCTLP-5C and TcCTLP-6C resulted in severe molting defects. Recombinant expressed TcCTLP-5C2 was moreover activated by trypsin and was able to hydrolyze AAPF, hence making TcCTLP-5C the first described chymotrypsin-like peptidase ever to be involved in molting.

Chymotrypsin

Insects

Chymotrypsin-like peptidase

Midgut

Chitin synthesis

Peritrophic matrix

Serine peptidase

Cuticle

Molting fluid

RNA interference

Manduca sexta

Tribolium castaneum

Coleoptera

Lepidoptera

ddc:570

ddc:590