Identificação e avaliação de novas adesinas em Leptospira interrogans por shotgun phage display / Identification and evaluation of new adhesins of Leptospira interrogans by shotgun phage display

Ferreira, Fabiana Lauretti

06 November 2015

Leptospirose é uma doença infecciosa emergente cujos agentes etiológicos são espécies patogênicas do gênero Leptospira. Leptospiras patogênicas possuem inúmeros genes específicos codificando proteínas com funções desconhecidas, sugerindo que as leptospiras apresentam fatores de virulência únicos. Adesinas bacterianas são importantes fatores de virulência e, assim, a identificação de adesinas conservadas em espécies patogênicas de Leptospira pela construção de bibliotecas genômicas expostas na superfície de bacteriófagos (shotgun phage display), seguida por seleção em células e/ou componentes da matriz extracelular (biopanning), pode revelar novos antígenos e alvos para o tratamento e prevenção da leptospirose. Bibliotecas foram construídas com o DNA genômico de L. interrogans fragmentado e o fagomídeo pG8SAET, sendo testadas algumas abordagens para clonagem como a ligação entre extremidades cegas (blunt-end) e técnicas baseadas em ligação entre extremidades coesivas, incluindo a obtenção de ORESTES e a utilização de adaptadores em grampo. Apesar de serem encontradas algumas limitações, a clonagem por ligação blunt-end se mostrou a mais eficiente para a construção de bibliotecas, sendo adotada para a construção de três bibliotecas em maior escala. A seleção de novas possíveis adesinas a partir das bibliotecas construídas foi realizada em células eucarióticas através da metodologia BRASIL. A primeira biblioteca (BBT1) exibiu 106 clones totais, a partir da qual foram selecionados quatro proteínas em fase apenas com a proteína VIII do fago (pVIII). No entanto, nenhuma delas seria exposta por programas de predição na bactéria. Outras duas bibliotecas foram construídas (BBT2 e BBT3), as quais obtiveram um número ideal de clones para uma ampla cobertura do genoma (>2x107 clones). Por apresentar maior proporção de clones válidos, a BBT2 foi utilizada para a seleção de adesinas, resultando em onze clones em fase com pVIII e/ou sequência sinal do fago. Análises por programas de predição revelaram três proteínas hipotéticas, denominadas LepA962, LepA069 e LepA388, as quais poderiam estar expostas ou ser secretadas pela bactéria, sugerindo uma possível função de adesina. O estudo da proteína LepA388 levou ao reconhecimento de outras doze proteínas semelhantes e pertencentes a uma família paráloga contendo um domínio denominado DUF_61, motivo de função desconhecida presente em proteínas compartilhadas somente entre as espécies patogênicas mais virulentas de Leptospira. Por esta razão, a proteína LepA388 foi a mais estudada. A clonagem de três porções da proteína (LepA388P, LepA388NR e LepA388F) para expressão heteróloga resultou em proteínas recombinantes insolúveis e, considerando a riqueza em resíduos de cisteína presente em sua estrutura, não foi possível renaturá-las adequadamente. Diante dos obstáculos encontrados, apenas a porção contendo a sequência apresentada pelo fago (LepA388P) foi utilizada para obtenção de antissoros em camundongos, os quais apresentaram altos títulos, demonstrando a alta imunogenicidade da proteína LepA388P. O reconhecimento de proteínas nativas da família paráloga DUF_61 em extratos de diferentes sorovares de Leptospira não foi observado, assim como sua expressão in vitro a partir de bactérias em diferentes condições de cultivo. Estudos adicionais sobre a expressão in vivo e funções dos membros desta família são necessários para uma compreensão mais ampla de seu papel na biologia de leptospiras e, possivelmente, na patogênese da leptospirose. / Leptospirosis is an emerging infectious disease whose etiologic agents are pathogenic species of the genus Leptospira. Pathogenic leptospires have countless specific genes encoding proteins with unknown functions, suggesting that leptospires have unique virulence factors. Bacterial adhesins are important virulence factors and so the identification of conserved adhesins in pathogenic Leptospira species from shotgun phage display libraries, followed by selection (biopanning) in cells and/or extracellular matrix components, can reveal new antigens and strategies for leptospirosis treatment and prevention. Libraries were constructed using fragmented genomic DNA from L. interrogans and pG8SAET phagemid vector. Cloning approaches included blunt-end ligation and techniques based in cohesive-end ligation, such as ORESTES strategy and hairpin linkers. Despite some limitations, cloning by blunt-end ligation was the most efficient for library construction, being adopted for the construction of three libraries on a larger scale. Selection of new possible adhesins was performed by biopanning of the libraries in eukaryotic cells through BRASIL methodology. The first library called BBT1 exhibited approximately 106 total clones, and its biopanning resulted in four proteins fused to phage protein VIII, but none of them were expected to be exposed by the bacteria. Other libraries were built (BBT2 and BBT3) which reached the expected number of clones to obtain a larger genome representation (> 2x107 clones). Since it showed the highest proportion of positive clones, BBT2 was selected to perform a second biopanning, resulting in eleven proteins fused to phage protein VIII and/or signal peptide. In silico analysis revealed three hypothetical proteins, named LepA962, LepA069 and LepA388, that would be exposed or secreted by the bacteria, suggesting a possible adhesin function. The study of LepA388 protein led to the recognition of twelve other similar proteins belonging to a paralogous family that contains a domain called DUF_61, domain of unknown function that is present in proteins shared only among the most virulent pathogenic species of Leptospira. For this reason, the LepA388 protein was the most studied. The cloning of three portions of the protein (LepA388P, LepA388NR and LepA388F) for heterologous expression resulted in insoluble recombinant proteins, and given the presence of many cysteine residues in its structure, it was not possible to renature them appropriately. In face of the imposed obstacles, only the portion containing the sequence presented by the bacteriophage (LepA388P) was used to obtain antisera in mice, which showed high titers, demonstrating the high immunogenicity of the protein LepA388P. Recognition of native DUF_61 paralogous family proteins in extracts from distinct Leptospira serovars was not observed, as well as its in vitro expression from bacteria cultured in different conditions. Additional studies on the in vivo expression and functions of members of this family are needed for a broader understanding of their role in leptospiral biology and possibly in the pathogenesis of leptospirosis.

Adesinas

Adhesins

Biopanning

Leptospira interrogans

Leptospira interrogans

Leptospirose

Leptospirosis

Seleção

Shotgun phage display

Shotgun phage display

Identificação e avaliação de novas adesinas em Leptospira interrogans por shotgun phage display / Identification and evaluation of new adhesins of Leptospira interrogans by shotgun phage display

Fabiana Lauretti Ferreira

06 November 2015

Leptospirose é uma doença infecciosa emergente cujos agentes etiológicos são espécies patogênicas do gênero Leptospira. Leptospiras patogênicas possuem inúmeros genes específicos codificando proteínas com funções desconhecidas, sugerindo que as leptospiras apresentam fatores de virulência únicos. Adesinas bacterianas são importantes fatores de virulência e, assim, a identificação de adesinas conservadas em espécies patogênicas de Leptospira pela construção de bibliotecas genômicas expostas na superfície de bacteriófagos (shotgun phage display), seguida por seleção em células e/ou componentes da matriz extracelular (biopanning), pode revelar novos antígenos e alvos para o tratamento e prevenção da leptospirose. Bibliotecas foram construídas com o DNA genômico de L. interrogans fragmentado e o fagomídeo pG8SAET, sendo testadas algumas abordagens para clonagem como a ligação entre extremidades cegas (blunt-end) e técnicas baseadas em ligação entre extremidades coesivas, incluindo a obtenção de ORESTES e a utilização de adaptadores em grampo. Apesar de serem encontradas algumas limitações, a clonagem por ligação blunt-end se mostrou a mais eficiente para a construção de bibliotecas, sendo adotada para a construção de três bibliotecas em maior escala. A seleção de novas possíveis adesinas a partir das bibliotecas construídas foi realizada em células eucarióticas através da metodologia BRASIL. A primeira biblioteca (BBT1) exibiu 106 clones totais, a partir da qual foram selecionados quatro proteínas em fase apenas com a proteína VIII do fago (pVIII). No entanto, nenhuma delas seria exposta por programas de predição na bactéria. Outras duas bibliotecas foram construídas (BBT2 e BBT3), as quais obtiveram um número ideal de clones para uma ampla cobertura do genoma (>2x107 clones). Por apresentar maior proporção de clones válidos, a BBT2 foi utilizada para a seleção de adesinas, resultando em onze clones em fase com pVIII e/ou sequência sinal do fago. Análises por programas de predição revelaram três proteínas hipotéticas, denominadas LepA962, LepA069 e LepA388, as quais poderiam estar expostas ou ser secretadas pela bactéria, sugerindo uma possível função de adesina. O estudo da proteína LepA388 levou ao reconhecimento de outras doze proteínas semelhantes e pertencentes a uma família paráloga contendo um domínio denominado DUF_61, motivo de função desconhecida presente em proteínas compartilhadas somente entre as espécies patogênicas mais virulentas de Leptospira. Por esta razão, a proteína LepA388 foi a mais estudada. A clonagem de três porções da proteína (LepA388P, LepA388NR e LepA388F) para expressão heteróloga resultou em proteínas recombinantes insolúveis e, considerando a riqueza em resíduos de cisteína presente em sua estrutura, não foi possível renaturá-las adequadamente. Diante dos obstáculos encontrados, apenas a porção contendo a sequência apresentada pelo fago (LepA388P) foi utilizada para obtenção de antissoros em camundongos, os quais apresentaram altos títulos, demonstrando a alta imunogenicidade da proteína LepA388P. O reconhecimento de proteínas nativas da família paráloga DUF_61 em extratos de diferentes sorovares de Leptospira não foi observado, assim como sua expressão in vitro a partir de bactérias em diferentes condições de cultivo. Estudos adicionais sobre a expressão in vivo e funções dos membros desta família são necessários para uma compreensão mais ampla de seu papel na biologia de leptospiras e, possivelmente, na patogênese da leptospirose. / Leptospirosis is an emerging infectious disease whose etiologic agents are pathogenic species of the genus Leptospira. Pathogenic leptospires have countless specific genes encoding proteins with unknown functions, suggesting that leptospires have unique virulence factors. Bacterial adhesins are important virulence factors and so the identification of conserved adhesins in pathogenic Leptospira species from shotgun phage display libraries, followed by selection (biopanning) in cells and/or extracellular matrix components, can reveal new antigens and strategies for leptospirosis treatment and prevention. Libraries were constructed using fragmented genomic DNA from L. interrogans and pG8SAET phagemid vector. Cloning approaches included blunt-end ligation and techniques based in cohesive-end ligation, such as ORESTES strategy and hairpin linkers. Despite some limitations, cloning by blunt-end ligation was the most efficient for library construction, being adopted for the construction of three libraries on a larger scale. Selection of new possible adhesins was performed by biopanning of the libraries in eukaryotic cells through BRASIL methodology. The first library called BBT1 exhibited approximately 106 total clones, and its biopanning resulted in four proteins fused to phage protein VIII, but none of them were expected to be exposed by the bacteria. Other libraries were built (BBT2 and BBT3) which reached the expected number of clones to obtain a larger genome representation (> 2x107 clones). Since it showed the highest proportion of positive clones, BBT2 was selected to perform a second biopanning, resulting in eleven proteins fused to phage protein VIII and/or signal peptide. In silico analysis revealed three hypothetical proteins, named LepA962, LepA069 and LepA388, that would be exposed or secreted by the bacteria, suggesting a possible adhesin function. The study of LepA388 protein led to the recognition of twelve other similar proteins belonging to a paralogous family that contains a domain called DUF_61, domain of unknown function that is present in proteins shared only among the most virulent pathogenic species of Leptospira. For this reason, the LepA388 protein was the most studied. The cloning of three portions of the protein (LepA388P, LepA388NR and LepA388F) for heterologous expression resulted in insoluble recombinant proteins, and given the presence of many cysteine residues in its structure, it was not possible to renature them appropriately. In face of the imposed obstacles, only the portion containing the sequence presented by the bacteriophage (LepA388P) was used to obtain antisera in mice, which showed high titers, demonstrating the high immunogenicity of the protein LepA388P. Recognition of native DUF_61 paralogous family proteins in extracts from distinct Leptospira serovars was not observed, as well as its in vitro expression from bacteria cultured in different conditions. Additional studies on the in vivo expression and functions of members of this family are needed for a broader understanding of their role in leptospiral biology and possibly in the pathogenesis of leptospirosis.

Adesinas

Leptospira interrogans

Leptospirose

Seleção

Shotgun phage display

Adhesins

Biopanning

Leptospira interrogans

Leptospirosis

Shotgun phage display

Engineering α-1 Proteinase Inhibitor to Target Neutrophil Serine Proteinase PR3

Al-Arnawoot, Ahmed

January 2020

Activated neutrophils release a neutrophil serine proteinase (NSP) called Proteinase 3 (PR3). In granulomatosis with polyangiitis (GPA), an autoimmune vasculitis, enhanced PR3 release results in endothelial damage. Serine proteinase inhibitors (serpins) such as α-1 proteinase inhibitor (API) inhibit NSPs through the serpin’s reactive center loop (RCL). However, API is known to bind PR3 with a low specificity, compared to its main inhibitory target Human Neutrophil Elastase (HNE). The current treatment for GPA is immunosuppression, which leaves patients immunocompromised. Thus, the overall aim of this study was to engineer an API variant with a higher specificity to PR3 than HNE, which could serve as a possible novel therapeutic strategy for GPA. We created an API expression library, hypervariable at RCL residues A355-I356-P357-M358-S359, and expressed it in a T7 bacteriophage display system. This phage library was then biopanned for PR3 binding. Two conditions were used for each round of biopanning: experimental, with PR3, and the negative control, without PR3. The library was biopanned for a total of five consecutive rounds, with the product of one screen serving as the starting material for the next. A bacterial mass lysate screen was also employed to further probe the library with PR3. The phage-display and bacterial lysate screens resulted in the selection of two novel variants API-DA (D357/A358) and API-N (N359). Serpin-proteinase gel complexing assays indicated that API-N formed complex with PR3 similar to API-WT (wild-type), while API-DA was mainly cleaved as a substrate. There was no significant difference between the second order rate constants of API-N and API-WT reactions with PR3. Rate constants for API-DA binding to PR3 or for API-HNE reactions were not completed due to novel coronavirus (COVID-19) restrictions. However, this project successfully demonstrated the ability to screen a hypervariable API phage library with PR3, yielding two new novel API variants. / Thesis / Master of Science in Medical Sciences (MSMS) / When harmful substances enter our body such as bacteria or viruses, we have ways of protecting ourselves from them. One of those ways is through a cell called the neutrophil. This is an immune cell that can release “fighting tools” into our blood to combat the harm. Some of these tools are called proteins. One of those proteins is Proteinase 3. However, sometimes our neutrophils can be activated without the presence of viruses or bacteria by products made in our bodies called autoantibodies. When this happens, too many of the “fighting tool” Proteinase 3 is released leading to damage to the tubes or vessels that our blood flows through. This project aimed to find a new possible way to stop these extra fighting tools from doing harm to our body. We did this by creating a library of different proteins that can stop Proteinase 3 once it is released by the neutrophil.

molecular biology

phage display

serpins

α-1 Proteinase Inhibitor

granulomatosis with polyangiitis

protein engineering

biopanning

Prospecção e caracterização de peptídeos recombinantes miméticos a antígenos totais de herpesvírus bovino 1 por meio de phage display / Prospecting and characterization of recombinant mimetic peptides to total antigens of herpesvirus type 1 by phage display

Almeida, Greyciele Rodrigues de

24 August 2015

Submitted by Marlene Santos (marlene.bc.ufg@gmail.com) on 2016-04-19T18:10:39Z No. of bitstreams: 2 Tese - Greyciele Rodrigues de Almeida - 2015.pdf: 2860659 bytes, checksum: c6b139400f7d4d535cf2e4ccecbabaed (MD5) license_rdf: 19874 bytes, checksum: 38cb62ef53e6f513db2fb7e337df6485 (MD5) / Approved for entry into archive by Luciana Ferreira (lucgeral@gmail.com) on 2016-04-20T15:16:36Z (GMT) No. of bitstreams: 2 Tese - Greyciele Rodrigues de Almeida - 2015.pdf: 2860659 bytes, checksum: c6b139400f7d4d535cf2e4ccecbabaed (MD5) license_rdf: 19874 bytes, checksum: 38cb62ef53e6f513db2fb7e337df6485 (MD5) / Made available in DSpace on 2016-04-20T15:16:36Z (GMT). No. of bitstreams: 2 Tese - Greyciele Rodrigues de Almeida - 2015.pdf: 2860659 bytes, checksum: c6b139400f7d4d535cf2e4ccecbabaed (MD5) license_rdf: 19874 bytes, checksum: 38cb62ef53e6f513db2fb7e337df6485 (MD5) Previous issue date: 2015-08-24 / Member of the Herpesviridae family, subfamily Alphaherpesvirinae, gender Varicellovirus, the bovine herpesvirus 1 (BoHV-1) has been associated with different clinical conditions (respiratory and genital/reproductive diseases) in cattle. There is no standard procedure to control or prevent infections caused by herpesviruses. In this sense, phage display was used to select new glycoprotein mimotopes antigen of BoHV-1 that has potential for use in vaccines and diagnostics. The phage display technique was performed using a linear random peptide library consisting of 12 amino acid residues fused to the protein III of M13 phage (no peptide) against BoHV-1 specific IgGs, purified by affinity chromatography. After three cycles of selection (biopanning) and amplification, 44 clones were isolated and their amino acid sequences were determined by sequencing generating 16 different sequences. ELISA, demonstrating the efficiency of selection from the specific antibodies, confirmed the reactivity of pooled clones. Another ELISA evaluated the individual specificity of the most frequent clones, the M13 phage was used as a negative control. We selected three peptides (B, C and E) with affinity for anti-BoHV-1 antibodies, and the E peptide (pepE), showed to have potential as antigen for antibody detection in a serological test for BoHV-1. Immunization of rabbits with the peptides induced specific production of serum antibodies, but they were not able do neutralize BoHV-1 cell lysis. The in silico analysis of the dodecapeptide E (1DRALYGPTVIDH12) enabled the identification of a new discontinuous epitope on the envelope glycoprotein B (gB Env) of bovine herpesvirus type 1 (BoHV-1). There is a short motif (338YKRD341) within a region of the env gB BoHV-1 with high similarity to motifs shared by dodecapeptide the N-terminal region (5YxARD1) of gB and HSV-1 (326YARD329), wherein the 328Arg residue is described as a target for neutralizing monoclonal antibodies (mAb) for HSV-1 gB. Besides the characterization of an antibody-binding site of the BoHV-1 Env gB, we have demonstrated that the phage-fused peptide has potential use as a reagent for virus diagnosis by phage-ELISA assay, discriminating BoHV-1 positive serum samples from negative ones. / Membro da família Herpesviridae, subfamília Alphaherpesvirinae, gênero Varicellovirus, o herpesvírus bovino 1 (BoHV-1) tem sido associado a diferentes condições clínicas em bovinos (doenças respiratórias, genitais e falhas reprodutivas). Não existe um procedimento padrão para medidas de controle e profilaxia das infecções causadas por herpesvírus. Nesse sentido, o phage display foi utilizado com o objetivo de selecionar novos antígenos mimetopos de glicoproteínas do herpesvírus bovino 1 (BoHV-1) e que apresentam potencial para uso em vacinas e diagnóstico. A técnica de phage display foi realizada com a utilização de uma biblioteca de peptídeos randômicos e lineares composta de 12 resíduos de aminoácidos fusionada à pIII de fagos M13 (sem peptídeo), contra anticorpos anti-BoHV-1, purificados em coluna de cromatografia por afinidade. Após três ciclos de seleção (biopanning) e amplificação, 44 clones foram isolados e as sequências de aminoácidos dos peptídeos foram determinadas pelo sequenciamento gerando 16 sequencias diferentes. A reatividade do pool de clones foi confirmada por ELISA, demonstrando a eficiência da seleção a partir dos anticorpos específicos. Para avaliação da especificidade individual, realizou-se o ELISA dos clones mais frequentes, tendo como controle negativo o fago M13. Foram selecionados três peptídeos (B, C e E) com afinidade por anticorpos anti-BoHV-1, e um destes, o peptídeo E (pepE), apresentou potencial antigênico na detecção de anticorpos para o diagnóstico sorológico do BoHV-1. Nos testes de imunização em coelhos, os três peptídeos induziram a produção de anticorpos específicos, porém, estes não foram capazes de neutralizar a lise celular ocasionada pelo BoHV-1 em placa. A análise in silico do dodecapeptídeo E (1DRALYGPTVIDH12) possibilitou a identificação de um novo epitopo descontínuo na glicoproteína B de envelope (Env gB) do BoHV-1. Há um curto motivo (338YKRD341) dentro de uma região do gene Env gB do BoHV-1, com alta similaridade com os motivos compartilhados pelo dodecapeptídio da região N-terminal (5YxARD1) da gB e do Herpesvirus Humano 1 (HSV-1) (326YARD329), em que o resíduo 328Arg é descrito como um alvo para anticorpos monoclonais neutralizantes (mAb) para a gB do HSV-1. Concluindo, além da caracterização de um sítio de ligação ao anticorpo na Env gB do BoHV-1, o pepE expresso pelo fago tem potencial de utilização como reagente para o diagnóstico virológico por ensaio ELISA-fago, que discrimina amostras de soro positivas e negativas para o BoHV-1.

Biopanning

BoHV -1

Diagnóstico

Epitopo descontínuo

Glicoproteína B

Diagnosis

Discontinuous epitope

Glycoprotein B

Antibody Based Diagnostic and Therapeutic Approach for Alzheimer's Disease

January 2014

abstract: Alzheimer's disease (AD) is the most common form of dementia leading to cognitive dysfunction and memory loss as well as emotional and behavioral disorders. It is the 6th leading cause of death in United States, and the only one among top 10 death causes that cannot be prevented, cured or slowed. An estimated 5.4 million Americans live with AD, and this number is expected to triple by year 2050 as the baby boomers age. The cost of care for AD in the US is about $200 billion each year. Unfortunately, in addition to the lack of an effective treatment or AD, there is also a lack of an effective diagnosis, particularly an early diagnosis which would enable treatment to begin before significant neuronal damage has occurred. Increasing evidence implicates soluble oligomeric forms of beta-amyloid and tau in the onset and progression of AD. While many studies have focused on beta-amyloid, soluble oligomeric tau species may also play an important role in AD pathogenesis. Antibodies that selectively identify and target specific oligomeric tau variants would be valuable tools for both diagnostic and therapeutic applications and also to study the etiology of AD and other neurodegenerative diseases. Recombinant human tau (rhTau) in monomeric, dimeric, trimeric and fibrillar forms were synthesized and purified to perform LDH assay on human neuroblastoma cells, so that trimeric but not monomeric or dimeric rhTau was identified as extracellularly neurotoxic to neuronal cells. A novel biopanning protocol was designed based on phage display technique and atomic force microscopy (AFM), and used to isolate single chain antibody variable domain fragments (scFvs) that selectively recognize the toxic tau oligomers. These scFvs selectively bind tau variants in brain tissue of human AD patients and AD-related tau transgenic rodent models and have potential value as early diagnostic biomarkers for AD and as potential therapeutics to selectively target toxic tau aggregates. / Dissertation/Thesis / Doctoral Dissertation Chemical Engineering 2014

Biomedical engineering

Chemical engineering

Alzheimer's Disease

atomic force microscopy (AFM)

biomarker

phage display biopanning

Single Chain Variable Fragments (scFvs)

tau oligomers