Crystal structure and regulation of the citrus pol III repressor MAF1 by auxin and phosphorylation

MAF1 is the main RNA polymerase (Pol) III repressor that controls cell growth in eukaryotes. The Citrus ortholog, CsMAF1, was shown to restrict cell growth in citrus canker disease but its role in plant development and disease is still unclear. We solved the crystal structure of the globular core of CsMAF1, which reveals additional structural elements compared with the previously available structure of hMAF1, and explored the dynamics of its flexible regions not present in the structure. CsMAF1 accumulated in the nucleolus upon leaf excision, and this translocation was inhibited by auxin and by mutation of the PKA phosphorylation site, S45, to aspartate. Additionally, mTOR phosphorylated recombinant CsMAF1 and the mTOR inhibitor AZD8055 blocked canker formation in normal but not CsMAF1-silenced plants. These results indicate that the role of TOR on cell growth induced by Xanthomonas citri depends on CsMAF1 and that auxin controls CsMAF1 interaction with Pol III in citrusThis work was supported by Sa˜ o Paulo Research Foundation (FAPESP grant 2011/20468-1). C.E.B. and A.F.Z.N. received a fellowship from Conselho Nacional de Desenvolvimento Científico e Tecnológico (CNPq).Peer reviewe

Isolamento e caracterização da lectina camptosemina extraída das sementes de Camptosema ellipticum

Lectins are (glico) proteins of non immune origin able to cause cellular agglutination or precipitation of glicoconjugates. Legume lectin refers to plant lectins that are found exclusively in species of the Leguminosae family. A notable characteristic of legume lectins is that all their proteins share tertiary structure consisting of a jelly-roll motif, which is basically composed by β sheet, but present great variability the quaternary association. This variability is considered responsible for conferring different degrees of stability to the legume lectins. This work presents the isolation and characterization of the camptosemin, a protein of legume lectins family, isolated from seeds of Camptosema ellipticum, a plant that belongs to the Brazilian open pasture. Camptosemin found to be a tetrameric protein, whose protomers exhibits approximately 26 kDa. It was able to agglutinate erythrocyte of all ABO sanguineous types and it was showed high affinity for N-acetylgalactosamin carbohydrate. Spectroscopic assays have demonstrated that camptosemin is an extremely resistant protein against the thermal and chemical unfolding. Through the analysis of the unfolding curves and the refolding assays, a model of two states for the unfolding of the protein was proposed. According to this model, at the equilibrium, only presents native tetramers and unfolded monomers. The obtained values of Tm and are in agreement with the ones described for other lectins. G O H Δ 2Financiadora de Estudos e ProjetosLectinas são (glico)proteínas de origem não imune capazes de causar aglutinação celular e/ou precipitação de glicoconjugados. O termo lectina de legume refere-se às lectinas de plantas que são encontradas exclusivamente em exemplares da família Leguminosae. Uma característica notável das lectinas de legumes é que todas as proteínas compartilham estrutura terciária constituída pelo motivo jelly-roll , que é basicamente composto por folhas-β, mas apresentam grande variabilidade nas formas de associação quaternária. Acredita-se que esta variabilidade seja responsável por conferir diferentes graus de estabilidade a estas lectinas. Este trabalho descreve o isolamento e a caracterização da camptosemina, uma proteína da família das lectinas de leguminosas, isolada a partir de sementes de Camptosema ellipticum, uma planta pertencente ao cerrado brasileiro. Camptosemina mostrou-se como uma proteína tetramérica, cujos protômeros apresentam aproximadamente 26 kDa, capaz de hemoaglutinar todos os tipos sanguíneos do sistema ABO e com afinidade de ligação ao carboidrato N-acetilgalactosamina. Ensaios de estabilidade estrutural utilizando técnicas espectroscópicas demonstraram que camptosemina é uma proteína extremamente resistente a desnaturação térmica e química. Através da análise das curvas de desnaturação e dos ensaios de reenovelamento, foi proposto um modelo de dois estados para o processo de desnaturação da proteína, no qual, durante o equilíbrio, só existem tetrâmeros completamente enovelados e monômeros completamente desnaturados. Os valores de Tm e obtidos estão em conformidade com os de outras lectinas, encontrados na literatura. G O H Δ

Structural studies of human peroxisome proliferator activated receptor, hPPARδ

Os PPARs são fatores de transcrição ativados por ligantes, pertencentes à superfamília dos receptores nucleares, que são considerados sensores de lipídeos capazes de transformar alterações nos padrões de lipídeos/ácidos graxos dos organismos em atividade metabólica. Com isto, os 3 isotipos (α, δ e γ) estão associados a diferentes desordens metabólicas como doenças vasculares, diabetes, obesidade, câncer e certas doenças mentais que constituem um grave problema de saúde pública mundial, o que torna esta classe de proteínas, um valioso alvo para a indústria farmacêutica. Embora a importância do hPPARδ na regulação da transcrição de genes relacionados a uma série de processos metabólicos seja conhecida, não há ainda nenhum fármaco no mercado cujo alvo seja este receptor. O maior conhecimento a respeito da estrutura deste receptor pode trazer esclarecimentos capazes de auxiliar o desenvolvimento racional de fármacos. Desta forma, no presente trabalho, buscou-se encontrar características estruturais importantes para a seletividade e especificidade dos ligantes pelo isotipo δ. Para tal, determinou-se as condições de expressão e purificação da proteína hPPARδ LBD, bem como as condições apropriadas de manutenção da mesma por meio da técnica de dicroísmo circular. O estado oligomérico deste receptor foi determinado em solução através das técnicas de cromatografia por exclusão de tamanho e por espalhamento dinâmico de luz, onde se concluiu que a proteína é monomérica nas condições testadas. Além disto, através de uma estrutura de alta resolução da proteína hPPARδ LBD com o ligante GW 0742, propôs-se a construção de dois mutantes, V312M e I328M, através dos quais concluiu-se que estes dois resíduos são potencialmente importantes para interação de ligantes estruturalmente relacionados com GW 0742, ao isotipo δ, indicando dois determinantes relacionados à seletividade de ligantes por este isotipo. Como existem poucos relatos sobre a estrutura completa deste receptor, e consequentemente da influência que os domínios N-terminal e DBD apresentam sobre o domínio LBD, um breve estudo da interação diferencial entre o receptor nuclear hPPARδ Full e três diferentes cofatores, em presença de ligante agonista e antagonista foi realizado. Para isto, determinou-se as condições de expressão e purificação da proteína hPPARδ Full, e prosseguiu-se com ensaios de anisotropia de fluorescência, através dos quais ficou claro que cada cofator apresenta um padrão diferente de interação com a proteína que pode ser dependente de outras regiões da proteína além daquelas já classicamente descritas. Isto é um forte indicativo de que diferentes regiões do hPPARδ podem ser chave no processo de regulação por intermédio de cofatores.PPARs are transcription factors activated by ligands, belonging to the superfamily of nuclear receptors, which are considered to be lipid sensors capable of making changes in patterns of lipid/fatty acid metabolic activity of organisms. The three isotypes (α, δ and γ) are associated with different metabolic disorders and vascular diseases as diabetes, obesity, cancer and certain mental illnesses which comprise a serious worldwide public health problem, making this class of proteins a valuable target for the pharmaceutical industry. Although it is known the importance of hPPARδ in regulating transcription of genes related to a series of metabolic processes, there is still no drug on the market directed to this receptor. Knowledge about the structure of this receptor can bring clarification able to assist the rational development of drugs. Therefore, in the present study, we sought to find structural features important for selectivity and specificity of ligand binding by the isotype δ. To this end, we determined the conditions of expression and purification of the protein hPPARδ LBD, as well as the appropriate conditions for maintaining it through the technique of circular dichroism. The oligomeric state of this receptor in solution was determined through the techniques of size exclusion chromatography and dynamic light scattering, which concluded that the protein is monomeric under the conditions tested. In addition, through a high-resolution structure of the protein hPPARδ LBD with the ligand GW 0742, we proposed the construction of two mutants, V312M and I328M, through which it was concluded that these two residues are potentially important for interaction of ligands structurally related to GW 0742 with the δ isotype. As there are few reports based on the complete structure of this receptor, and consequently about the influence of the N-terminal and DBD domains with the LBD domain, a brief study of the interaction between the nuclear receptor differential hPPARδ Full and three different cofactors in the presence of agonist and antagonist ligands were performed. For this, we determined the conditions of expression and purification of the protein hPPARδ Full, and using fluorescence anisotropy, it became clear that each cofactor has a different pattern of interaction with the protein which may be dependent on other regions of the protein in addition to those already described classically. This is a strong indication that different regions of hPPARδ can be key points in the regulatory process through cofactors

Structural studies of human peroxisome proliferator activated receptor, hPPARδ

Os PPARs são fatores de transcrição ativados por ligantes, pertencentes à superfamília dos receptores nucleares, que são considerados sensores de lipídeos capazes de transformar alterações nos padrões de lipídeos/ácidos graxos dos organismos em atividade metabólica. Com isto, os 3 isotipos (α, δ e γ) estão associados a diferentes desordens metabólicas como doenças vasculares, diabetes, obesidade, câncer e certas doenças mentais que constituem um grave problema de saúde pública mundial, o que torna esta classe de proteínas, um valioso alvo para a indústria farmacêutica. Embora a importância do hPPARδ na regulação da transcrição de genes relacionados a uma série de processos metabólicos seja conhecida, não há ainda nenhum fármaco no mercado cujo alvo seja este receptor. O maior conhecimento a respeito da estrutura deste receptor pode trazer esclarecimentos capazes de auxiliar o desenvolvimento racional de fármacos. Desta forma, no presente trabalho, buscou-se encontrar características estruturais importantes para a seletividade e especificidade dos ligantes pelo isotipo δ. Para tal, determinou-se as condições de expressão e purificação da proteína hPPARδ LBD, bem como as condições apropriadas de manutenção da mesma por meio da técnica de dicroísmo circular. O estado oligomérico deste receptor foi determinado em solução através das técnicas de cromatografia por exclusão de tamanho e por espalhamento dinâmico de luz, onde se concluiu que a proteína é monomérica nas condições testadas. Além disto, através de uma estrutura de alta resolução da proteína hPPARδ LBD com o ligante GW 0742, propôs-se a construção de dois mutantes, V312M e I328M, através dos quais concluiu-se que estes dois resíduos são potencialmente importantes para interação de ligantes estruturalmente relacionados com GW 0742, ao isotipo δ, indicando dois determinantes relacionados à seletividade de ligantes por este isotipo. Como existem poucos relatos sobre a estrutura completa deste receptor, e consequentemente da influência que os domínios N-terminal e DBD apresentam sobre o domínio LBD, um breve estudo da interação diferencial entre o receptor nuclear hPPARδ Full e três diferentes cofatores, em presença de ligante agonista e antagonista foi realizado. Para isto, determinou-se as condições de expressão e purificação da proteína hPPARδ Full, e prosseguiu-se com ensaios de anisotropia de fluorescência, através dos quais ficou claro que cada cofator apresenta um padrão diferente de interação com a proteína que pode ser dependente de outras regiões da proteína além daquelas já classicamente descritas. Isto é um forte indicativo de que diferentes regiões do hPPARδ podem ser chave no processo de regulação por intermédio de cofatores.PPARs are transcription factors activated by ligands, belonging to the superfamily of nuclear receptors, which are considered to be lipid sensors capable of making changes in patterns of lipid/fatty acid metabolic activity of organisms. The three isotypes (α, δ and γ) are associated with different metabolic disorders and vascular diseases as diabetes, obesity, cancer and certain mental illnesses which comprise a serious worldwide public health problem, making this class of proteins a valuable target for the pharmaceutical industry. Although it is known the importance of hPPARδ in regulating transcription of genes related to a series of metabolic processes, there is still no drug on the market directed to this receptor. Knowledge about the structure of this receptor can bring clarification able to assist the rational development of drugs. Therefore, in the present study, we sought to find structural features important for selectivity and specificity of ligand binding by the isotype δ. To this end, we determined the conditions of expression and purification of the protein hPPARδ LBD, as well as the appropriate conditions for maintaining it through the technique of circular dichroism. The oligomeric state of this receptor in solution was determined through the techniques of size exclusion chromatography and dynamic light scattering, which concluded that the protein is monomeric under the conditions tested. In addition, through a high-resolution structure of the protein hPPARδ LBD with the ligand GW 0742, we proposed the construction of two mutants, V312M and I328M, through which it was concluded that these two residues are potentially important for interaction of ligands structurally related to GW 0742 with the δ isotype. As there are few reports based on the complete structure of this receptor, and consequently about the influence of the N-terminal and DBD domains with the LBD domain, a brief study of the interaction between the nuclear receptor differential hPPARδ Full and three different cofactors in the presence of agonist and antagonist ligands were performed. For this, we determined the conditions of expression and purification of the protein hPPARδ Full, and using fluorescence anisotropy, it became clear that each cofactor has a different pattern of interaction with the protein which may be dependent on other regions of the protein in addition to those already described classically. This is a strong indication that different regions of hPPARδ can be key points in the regulatory process through cofactors

Cellular and Biophysical Pipeline for the Screening of Peroxisome Proliferator-Activated Receptor Beta/Delta Agonists: Avoiding False Positives

Peroxisome proliferator-activated receptor beta/delta (PPARß/δ) is considered a therapeutic target for metabolic disorders, cancer, and cardiovascular diseases. Here, we developed one pipeline for the screening of PPARß/δ agonists, which reduces the cost, time, and false-positive hits. The first step is an optimized 3-day long cellular transactivation assay based on reporter-gene technology, which is supported by automated liquid-handlers. This primary screening is followed by a confirmatory transactivation assay and by two biophysical validation methods (thermal shift assay (TSA) and (ANS) fluorescence quenching), which allow the calculation of the affinity constant, giving more information about the selected hits. All of the assays were validated using well-known commercial agonists providing trustworthy data. Furthermore, to validate and test this pipeline, we screened a natural extract library (560 extracts), and we found one plant extract that might be interesting for PPARß/δ modulation. In conclusion, our results suggested that we developed a cheaper and more robust pipeline that goes beyond the single activation screening, as it also evaluates PPARß/δ tertiary structure stabilization and the ligand affinity constant, selecting only molecules that directly bind to the receptor. Moreover, this approach might improve the effectiveness of the screening for agonists that target PPARß/δ for drug development

Identification of two p23 co-chaperone isoforms in Leishmania braziliensis exhibiting similar structures and Hsp90 interaction properties despite divergent stabilities

Submitted by Nuzia Santos ([email protected]) on 2016-04-06T12:28:38Z No. of bitstreams: 1 Identification of two p23 co-chaperone isoforms in Leishmania .pdf: 9476837 bytes, checksum: f9bb90d0e6af61050c09542ef54a31cf (MD5)Approved for entry into archive by Nuzia Santos ([email protected]) on 2016-04-06T13:01:18Z (GMT) No. of bitstreams: 1 Identification of two p23 co-chaperone isoforms in Leishmania .pdf: 9476837 bytes, checksum: f9bb90d0e6af61050c09542ef54a31cf (MD5)Made available in DSpace on 2016-04-06T13:01:18Z (GMT). No. of bitstreams: 1 Identification of two p23 co-chaperone isoforms in Leishmania .pdf: 9476837 bytes, checksum: f9bb90d0e6af61050c09542ef54a31cf (MD5) Previous issue date: 2015Universidade de Sao Paulo. Instituto de Quimica. Sao Carlos, SP, BrasilUniversidade Federal de Sao Carlos. Departamento de Genetica e Evolucao. Sao Carlos, SP, BrasilUniversidade de Sao Paulo. Instituto de Quimica. Sao Carlos, SP, BrasilUniversidade de Sao Paulo. Instituto de Quimica. Sao Carlos, SP, BrasilFundaçao Oswaldo Cruz. Centro de Pesquisa Rene Rachou. Belo Horizonte, MG, BrasilUniversidade de Sao Paulo. Instituto de Fisica. Sao Paulo, SP, BrasilUniversidade de Sao Paulo. Instituto de Quimica. Sao Carlos, SP, BrasilThe small acidic protein called p23 acts as a co-chaperone for heat-shock protein of 90 kDa (Hsp90) during its ATPase cycle. p23 proteins inhibit Hsp90 ATPase activity and show intrinsic chaperone activity. A search for p23 in protozoa, especially trypanosomatids, led us to identify two putative proteins in the Leishmania braziliensis genome that share approximately 30% identity with each other and with the human p23. To understand the presence of two p23 isoforms in trypanosomatids, we obtained the recombinant p23 proteins of L. braziliensis (named Lbp23A and Lbp23B) and performed structural and functional studies. The recombinant proteins share similar solution structures; however, temperature-and chemicalinduced unfolding experiments showed that Lbp23A is more stable than Lbp23B, suggesting that they may have different functions. Lbp23B prevented the temperature-induced aggregation of malic dehydrogenase more efficiently than did Lbp23A, whereas the two proteins had equivalent efficiencies with respect to preventing the temperature-induced aggregation of luciferase. Both proteins interacted with L. braziliensis Hsp90 (LbHsp90) and inhibited its ATPase activity, although their efficiencies differed. In vivo identification studies suggested that both proteins are present in L. braziliensis cells grown under different conditions, although Lbp23B may undergo post-translation modifications. Interaction studies indicated that both Lbp23 proteins interact with LbHsp90. Taken together, our data suggest that the two protozoa p23 isoforms act similarly when regulating Hsp90 function. However, they also have some differences, indicating that the L. braziliensis Hsp90 machine has features providing an opportunity for novel forms of selective inhibition of protozoan Hsp90

Thermodynamic analysis of interactions of the Hsp90 with adenosine nucleotides : a comparative perspective

Hsp90s are key proteins in cellular homeostasis since they interact with many client proteins. Several studies indicated that Hsp90s are potential targets for treating diseases, such as cancer or malaria. It has been shown that Hsp90s from different organisms have peculiarities despite their high sequence identity. Therefore, a detailed comparative analysis of several Hsp90 proteins is relevant to the overall understanding of their activity. Accordingly, the goal of this work was to evaluate the interaction of either ADP or ATP with recombinant Hsp90s from different organisms (human α and β isoforms, Plasmodium falciparum, Leishmania braziliensis, yeast and sugarcane) by isothermal titration calorimetry. The measured thermodynamic signatures of those interactions indicated that despite the high identity among all Hsp90s, they have specific thermodynamic characteristics. Specifically, the interactions with ADP are driven by enthalpy but are opposed by entropy, whereas the interaction with ATP is driven by both enthalpy and entropy. Complimentary structural and molecular dynamics studies suggested that specific interactions with ADP that differ from those with ATP may contribute to the observed enthalpies and entropies. Altogether, the data suggest that selective inhibition may be more easily achieved using analogues of the Hsp90-ADP bound state than those of Hsp90-ATP bound state130125138CONSELHO NACIONAL DE DESENVOLVIMENTO CIENTÍFICO E TECNOLÓGICO - CNPQFUNDAÇÃO DE AMPARO À PESQUISA DO ESTADO DE SÃO PAULO - FAPESP471415/2013-8; 303129/2015-82009/53989-4; 2011/23110-0; 2012/50161-8; 2013/25646-0; 2014/07206-6; 2015/26722-8; 2017/07335-9; 2017/18173-0We are in great debt with FAPESP (2009/53989-4; 2011/23110-0; 2012/50161-8; 2013/25646-0; 2014/07206-6; 2015/26722-8; 2017/07335-9 and 2017/18173-0) and CNPq (471415/2013-8 and 303129/2015-8) for financial support. We thank Prof. Walid A. Houry (University of Toronto, CA) and Prof. Jason C. Young (McGill University, CA) for gently providing some of the expression vectors here use

The molecular structure of Schistosoma mansoni PNP isoform 2 provides insights into the nucleoside selectivity of PNPs.

Purine nucleoside phosphorylases (PNPs) play an important role in the blood fluke parasite Schistosoma mansoni as a key enzyme of the purine salvage pathway. Here we present the structural and kinetic characterization of a new PNP isoform from S. mansoni, SmPNP2. Thermofluorescence screening of different ligands suggested cytidine and cytosine are potential ligands. The binding of cytosine and cytidine were confirmed by isothermal titration calorimetry, with a KD of 27 μM for cytosine, and a KM of 76.3 μM for cytidine. SmPNP2 also displays catalytic activity against inosine and adenosine, making it the first described PNP with robust catalytic activity towards both pyrimidines and purines. Crystal structures of SmPNP2 with different ligands were obtained and comparison of these structures with the previously described S. mansoni PNP (SmPNP1) provided clues for the unique capacity of SmPNP2 to bind pyrimidines. When compared with the structure of SmPNP1, substitutions in the vicinity of SmPNP2 active site alter the architecture of the nucleoside base binding site thus permitting an alternative binding mode for nucleosides, with a 180° rotation from the canonical binding mode. The remarkable plasticity of this binding site enhances our understanding of the correlation between structure and nucleotide selectivity, thus suggesting new ways to analyse PNP activity