The Human Host Defense Peptide LL-37 Overexpressed in Lung Cell Lines by Methanolic Extract of Valeriana officinalis

Abstract The present study investigated the effects of valerian methanolic extract and valerenic acid on the expression of LL-37 gene and protein in A549 and MRC5 line cells. After preparing Valerian seeds, sowing them in March 2020, and harvesting the rhizome in October 2020, the extract was prepared from the valerian rhizome by maceration method. Valerian acid content was determined using high performance liquid chromatography (HPLC). Two cell lines (A549 and MRC-5) were used to study the effects of valerian extract, and the MTT test was used to evaluate cell viability. The expression of LL-37 mRNA and protein was assessed by Real-Time PCR and western blot, respectively. In vivo safety assessments and histopathological analysis were also conducted. Data was analyzed by Graphpad Prism 8 software. Valerian methanolic extract and valerenic acid upregulated the LL-37 mRNA and protein expression in both treated cell lines. Valerenic acid showed a greater effect on upregulating LL-37 expression than valerian methanolic extract. A549 cells were more sensitive to valerian methanolic extract compared to MRC5 cells, and its cell viability was reduced. Furthermore, liver and kidney-related safety assessments showed that valerian methanolic extract had no toxic effects. In general, it was concluded that the methanolic extract of valerian as well as the resulting valerenic acid as the most important component of the extract has the ability to upregulate LL-37expression. Therefore, methanolic extract of valerian and valerenic acid can be considered for improving the immune system.

Compound Danshen Dripping Pills pretreatment protects the heart from ischemia/reperfusion injury by enhancing autophagic flux

Abstract Compound Danshen Dripping Pills (CDDPs) have been used in clinical treatment to protect the heart from ischemia/reperfusion (IR) injury for many years. However, the underlying mechanism implicated in the protective effects remains to be explored. Here, we determined the effects of CDDPs in Sprague-Dawley rats with the IR model. Cardiac function in vivo was assessed by echocardiography. Transmission electron microscopy, histological and immunohistochemical techniques, Western blotting and recombinant adeno-associated virus 9 transfection were used to illustrate the effects of CDDPs on IR and autophagy. Our results showed that pretreatment with CDDPs decreased the level of serum myocardial enzymes and infarct size in rats after IR. Apoptosis evaluation showed that CDDPs significantly ameliorated the cardiac apoptosis level after IR. Meanwhile, CDDPs pretreatment increased myocardial autophagic flux, with upregulation of LC3B, downregulation of p62, and increased autophagosomes and autolysosomes. Moreover, the autophagic flux inhibitor chloroquine could increase IR injury, while CDDPs could partially reverse the effects. Furthermore, our results showed that the activation of AMPK/mTOR was involved in the cardioprotective effect exerted by CDDPs. Herein, we suggest that CDDPs partially protect the heart from IR injury by enhancing autophagic flux through the activation of AMPK/mTOR.

Sunitinib induced resistance of endothelial cells by up-regulating P-glycoprotein and PI3K/Akt pathway

Abstract Drug resistance is a crucial obstacle to achieve satisfactory chemotherapeutic effects. Numerous studies have shown that the PI3K/Akt signaling pathway plays a significant role in various processes of cellular events and tumor progression, while few studies have focused on the PI3K/Akt signaling pathway in drug resistance of endothelial cells. The present study aims to explore the relationship of PI3K/Akt signaling and cellular resistance to anticancer drugs in human microvessel endothelial cells (HMEC-1). We established stable sunitinib-resiatant human microvessel endothelial cells (HMEC-su) after long-term exposure to sunitinib (a small-molecule tyrosine kinase receptor inhibitor) for 12 months. HMEC-su showed significant alternations of cell morphology and exhibited a 2.32-fold higher IC50 of sunitinib than parental HMEC-1 cells. Expression of P-glycoprotein (P-gp) and breast cancer-resistance protein (ABCG2) which mediates drug efflux, increased significantly in HMEC-su lines compared with HMEC-1 cells by western blots assay. Our study further demonstrates that LY294002 (blocking the PI3K/Akt pathway) enhances the sensibility of HMEC-su to suntinib and inhibits the gene transcription and protein expression of P-gp, ABCG2 in HMEC-su cells. In conclusion, these results indicate that LY294002 could reverse P-gp and ABCG2 mediated-drug resistance to sunitinib in HMEC-su cells by inhibiting PI3K/Akt signaling.

A map of neutrophil granules by proteomics / Mapa dos neutrófilos por proteômica (OU) Mapa dos grânulos do neutrófilo por proteômica

Neutrophils are polymorphonuclear leukocytes that play a key role in the organism defense. These cells enroll in a range of actions to ensure pathogen elimination and orchestrate both innate and adaptative immune responses. The main physiological structures of neutrophils are their storage organelles that are essential since the cells activation and participate in all their functions. The storage organelles are divided into 2 types: granules and secretory vesicles. The granules are subdivided into azurophilic, specific and gelatinase. The granules are distinguished by their protein content, and since they play an important role on the neutrophil function, the knowledge of the proteins stored in these organelles can help to better understand these cells. Some proteins are present in high abundance and are used as markers for each storage organelle. These proteins are myeloperoxidase (MPO) for azurophil granules, neutrophil gelatinase associated with lipocalin-2 (NGAL) and lactoferrin (LTF) for specific granules, matrix metalloproteinase-9 (MMP9) for gelatinase granules and alkaline phosphatase (AP) for secretory vesicles. The isolation of neutrophils granules, however, is challenging and the existing procedures rely on large sample volumes, about 400 mL of peripheral blood or 3 x 108 neutrophils, not allowing for multiple biological and technical replicates. Therefore, the aim of this study was to develop a miniaturized neutrophil granules isolation method and to use biochemical assays, mass spectrometry-based proteomics and a machine learning approach to investigate the protein content of the neutrophils storage organelles. With that in mind, 40 mL of the peripheral blood of three apparently healthy volunteers were collected. The neutrophils were isolated, disrupted using nitrogen cavitation and organelles were fractionated with a discontinuous 3-layer Percoll density gradient. The presence of granules markers in each fraction was assessed using western blot , gelatin zymography and enzymatic assays. The isolation was proven successful and allowed for a reasonable separation of all neutrophils storage organelles in a gradient of less than 1 mL, about 37 times smaller than the methodsdescribed in the literature. Moreover, mass spectrometry-based proteomics identified 369 proteins in at least 3 of the 5 samples, and using a machine learning strategy, the localization of 140 proteins was predicted with confidence. Furthermore, this study was the first to investigate the proteome of neutrophil granules using technical and biological replicates, creating a reliable database for further studies. In conclusion, the developed miniaturized method is reproducible, cheaper, and reliable. In addition, it provides a resource for further studies exploring neutrophil granules protein content and mobilization during activation with different stimuli

Neutrófilos são leucócitos polimorfonucleares que possuem papel fundamental na defesa do organismo. Essas células desempenham diversas ações a fim de assegurar a eliminação de um patógeno e, além disso, orquestram a resposta imune inata e adaptativa. O conjunto composto pelos grânulos de armazenamento e as vesículas secretórias compõe a principal estrutura fisiológica dos neutrófilos. Estes componentes são essenciais desde a ativação celular, participando de todas as funcionalidades desta célula. Os grânulos são subdivididos em azurófilos, específicos e gelatinase. Eles podem ser distinguidos por meio de seu conteúdo proteico e, como são importantes na funcionalidade dos neutrófilos, identificar quais proteínas são armazenadas nestas organelas é imprescindível para entender melhor essa célula como um todo. Algumas proteínas, estão presentes de forma abundante e, portanto, são utilizadas como marcadores dos grânulos. Tais proteínas são mieloperoxidase (MPO) para os grânulos azurófilos, gelatinase de neutrófilo associada a lipocalina (NGAL) e lactoferrina (LTF) para os específicos, metaloproteinase de matrix 9 (MMP9) para os grânulos de gelatinase e fosfatase alcalina (AP) para as vesículas secretórias. Isolar estas estruturas, no entanto, é desafiador visto que os protocolos existentes na literatura utilizam grandes volumes de amostra, cerca de 400 mL de sangue ou 3 x 108 neutrófilos, para apenas um isolamento, impedindo a realização de replicatas técnicas e biológicas. Desta forma, o objetivo do presente estudo foi desenvolver um protocolo miniaturizado de isolamento dos grânulos neutrofílicos e utilizar métodos bioquímicos, de proteômica e machine learning para investigar o conteúdo proteico destas estruturas celulares. Para isto, 40 mL de sangue periférico de três voluntários aparentemente saudáveis foi coletado. Os neutrófilos foram então isolados, lisados com cavitação de nitrogênio e o fracionamento subcelular foi realizado baseado em um gradiente descontínuo de 3 camadas de Percoll. O método de isolamento foi avaliado através da investigação dos marcadores utilizando western blotting (WB), zimografia de gelatina e ensaios enzimáticos em cada fração coletada. O isolamento demonstrou-se eficiente e permitiu uma ótima separação dos grânulosem um gradiente menor que 1 mL, cerca de 37 vezes menor que os métodos atualmente descritos na literatura. Além disso, a análise proteômica foi capaz de identificar 369 proteínas presentes em pelo menos 3 das 5 réplicas investigadas e, utilizando ferramentas de machine learning, 140 proteínas foram classificadas como pertencentes a um dos tipos de grânulos ou vesícula secretória com alto nível de confiabilidade. Por fim, o presente estudo foi o primeiro a investigar o proteoma dos grânulos utilizando replicatas técnicas e biológicas, criando e fornecendo uma base de dados robusta que poderá ser utilizada em estudos futuros. Conclui-se, portanto, que a metodologia miniaturizada desenvolvida é eficaz, reprodutível e mais barata, além de permitir estudos mais complexos e profundos sobre o proteoma dos grânulos dos neutrófilos em diferentes momentos celulares, tais como quando ativados via estímulos distintos

Stratifin em Tumores de Cabeça e Pescoço: Um alvo molecular identificado por Phage Display / Stratifin in head and neck tumors: a molecular target identified by Phage Display

Nos últimos anos, houve um aumento na frequência dos casos de tumores de cabeça e pescoço apesar da diminuição do consumo do tabaco e álcool, e isso tem sido atribuído, em parte, à infecção pelo Papilomavírus Humano HPV. Por apresentar baixa sobrevida em 5 anos e ter alta morbidade, tem se buscado novos alvos moleculares para terapias combinadas. Nesse contexto nosso grupo identificou, através da tecnologia de Phage Display, uma sequência peptídica com interação preferencial por células tumorais com relação à células não transformadas, e ensaios adicionais identificaram seu alvo como sendo a proteína Stratifin. Stratifin tem sido reportado como um oncogene em diversos modelos tumorais, entretanto seu papel em carcinoma de células escamosas de cabeça e pescoço (CCECP) permanece desconhecido e poucos trabalhos na literatura reportam sua atividade em CCECP e/ou outro tumores relacionados ao HPV. Dessa forma, o objetivo desse trabalho foi explorar o potencial valor clínico e o papel biológico da Stratifin em CCECP. Dados do perfil de expressão e de metilação assim como dados clínicos foram extraídos em base de dados do The Cancer Genoma Atlas TCGA. Paralelamente, o perfil de expressão de Stratifin foi verificado através de ensaios de RT/qPCR e Western Blot em um painel de linhagens celulares de CCECP que contempla as principais características moleculares para esses tipos tumorais. A partir da observação de que todas as linhagens expressam Stratifin, utilizou-se a tecnologia de CRISPR/Cas9 para modular sua expressão (nocauteando ou superexpressando o gene) de modo a se observar parâmetros relacionados ao processo tumorigênico. Dessa forma, foi possivel verificar os efeitos da Stratifin em ensaios de proliferação, viabilidade após tratamentos com quimioterápicos, irradiação, crescimento livre de ancoragem e clonogenicidade. Como resultados, observamos que expressão aumentada de Stratifin no tecido tumoral quando comparado ao tecido normal, foi positivamente relacionada com o grau histológico, negatividade para HPV, mutação em TP53 e CDKN2A. Biologicamente, o nocaute de Stratifin foi relacionado com maior sensibilidade à quimioterápicos, menor capacidade de formação de colônias, e reduzida capacidade de crescimento livre de ancoragem. Esses resultados sugerem que Stratifin atue como um oncogene em CCECP, entretanto ensaios adicionais devem ser realizados para corroborar esse achados

Over recent years, there has been an increase of head and neck tumors frequency despite the decrease in tobacco and alcohol consumption, and this has been attributed, in part, to Human Papillomavirus infection. Due to its low 5-year survival and high morbidity, new molecular targets for combined therapies have been sought. In this context, our group identified, through Phage Display technology, a peptide sequence with preferential interaction by tumor cells in relation to non-transformed cells, and further assays identified its target as the Stratifin protein. Stratifin has been reported as an oncogene in several tumor models, however its role in head and neck squamous cell carcinoma (HNSCC) remains unknown and few works in the literature report its activity in HNSCC and/or other HPV-related tumors. Therefore, the aim of this study was to explore the potential clinical value and biological role of Stratifin in HNSCC. Expression profile data as well as clinical data were extracted from The Cancer Genome Atlas - TCGA database. In parallel, the expression profile of Stratifin was verified through RT/qPCR and Western Blot assays in a panel of HNSCC cell lines that address the main molecular characteristics for these tumor types. Since all cell lines express Stratifin, CRISPR/Cas9 technology was used to modulate its expression (gene knocking out or overexpressing) in order to check parameters related to the tumorigenic process. Thus, it was possible to verify the Stratifin effects in proliferation assays, viability after chemotherapy treatments, irradiation, anchorage-free growth and clonogenicity. As a result, we observed an increased expression of Stratifin in tumor tissue when compared to normal tissue, which was positively related to histological grade, HPV negativity, mutation in TP53 and CDKN2A. Biologically, knockout of Stratifin was associated with greater sensitivity to chemotherapy, less colony-forming capacity, and reduced anchorage-free growth capacity. These results suggest that Stratifin acts as an oncogene in HNSCC, however additional assays should be performed to corroborate these findings

Cornuside ameliorated experimental autoimmune encephalomyelitis by limiting the recruitment of CD4+ T lymphocytes in the spinal cord

We conducted this study to determine whether cornuside could improve the neurological deficit symptoms of experimental autoimmune encephalomyelitis (EAE) rats, as well as determine the potential involvement of CD4+ T lymphocytes, vascular cell adhesion molecule-1 (VCAM-1), intercellular adhesion molecule-1 (ICAM-1), and tumor necrosis factor-α (TNF-α). Altogether, 32 Lewis rats were randomly divided into control, EAE, EAE/prednisolone, and EAE/cornuside, wherein their neurological function was assessed every day. CD4+ T lymphocyte recruitment into the spinal cord (SC) was evaluated using immunohistochemistry. The VCAM-1, ICAM-1 and TNF-α mRNA expressions in the SC were determined by real-time quantitative PCR, and the VCAM-1 and ICAM-1 proteins were determined by western blotting. Compared to the control group, the EAE group rats with neurological deficits had enhanced CD4+ T lymphocyte infiltration and higher expression levels of VCAM-1, ICAM-1, and TNF-α in the SC. Meanwhile, compared with the EAE group, the EAE/cornuside and EAE/prednisolone groups had lower neurological scores, less CD4+ T lymphocyte infiltrations, and lower expression levels of VCAM-1, ICAM-1, and TNF-α in the SC. Thus, cornuside ameliorated EAE, which could be owed to the inhibition of CD4+ T lymphocyte recruitment and VCAM-1, ICAM-1, and TNF-α expressions in the SC

Protective effects of psoralen polymer lipid nanoparticles on doxorubicin - induced myocardial toxicity

Abstract Doxorubicin (DOX) induced myocardial toxicity may limit its therapeutic use in clinic. Psoralen (PSO), a major active tricyclic furocoumarin extracted from Psoralea corylifolia, is widely used as an antineoplastic agent in treatment of leukemia and other cancers. This study is aim to find the protective effect of psoralen polymer lipid nanoparticles (PSO-PLN) on doxorubicin-induced myocardial toxicity in mice. The model of myocardial toxicity induced by DOX was established. The experiment was divided into 6 groups: normal saline group, DOX + Sulfotanshinone Sodium, DOX + PSO-PLN (3 mg/kg), DOX + PSO-PLN (6 mg/kg), DOX + PSO-PLN (9 mg/ kg), DOX group. DOX alone treated mice lead to a significant decrease in the body weight, heart weight, and increase in the serum levels of lactate dehydrogenase (LDH), creatine kinase (CK) and malondialdehyde (MDA) markers of cardiotoxicity. However, DOX reduced glutathione (GSH) content and activities of antioxidant enzymes, including superoxide dismutase (SOD) and glutathione peroxidase (GPX), were recovered by PSO-PLN. And PSO-PLN also decreased markers of cardiotoxicity in the serum. Western blotting data showed that the protective effects of PSO-PLN might be mediated via regulation of protein kinase A (PKA) and p38. Our study suggest that PSO-PLN possesses antioxidant activities, inactivating PKA and p38 effect, which in turn protect the heart from the DOX-induced cardiotoxicity.

Differential Regulation of Integrin α5 and ß4 in Normal and Psoriatic Epidermal Keratinocytes

Abstract Psoriasis is a chronic skin inflammation, characterized by impaired differentiation, hyperproliferation of keratinocytes involving pro-inflammatory factors interleukin (IL)-13/17A, tumor necrosis factor (TNF)-α, interferon (IFN)-γ. Among the integrin family, α5 is important for blood vessel formation, and ß4 for proliferation, differentiation of keratinocytes. To investigate the expression and regulation of integrin α5 and ß4 in psoriatic keratinocytes. Skin biopsies were obtained from 14 psoriatic patients and 12 normal volunteers. We compared the immunolocalization and regulation of α5 and ß4 between the psoriatic and normal ones, before and after incubation with MEK/ERK pathway inhibitor U0126 by immunohistochemistry and western blot separately. Immunohistochemistry showed psoriatic keratinocytes had higher α5 than normal ones. According to western blot, IL-17A and IL-13 increased normal keratinocytes' α5 and ß4 respectively, but psoriatic keratinocytes were the exact opposite. Incubated with U0126, normal keratinocytes' α5 was enhanced by the 5 cytokines ; while IL-13/17A, IFN-γ suppressed ß4. Psoriatic keratinocytes' α5 was increased by IL-13/17A, decreased by IFN-γ; but ß4 increased by IL-17A, IFN-γ. IL-13/17A, TNF-α, IFN-γ regulate α5 and ß4 through ERK pathway whether normal or psoriasis. The normal and psoriatic keratinocytes respond to the same cytokines differently

Insulina modula migração celular e a secreção de citocinas na vigência da infecção pulmonar por Paracoccidioides brasiliensis em camundongos diabéticos e não-diabéticos / Insulin modulates cell migration and cytokines secretion during pulmonary infection caused by Paracoccidioides brasiliensis in diabetic and non-diabetic mice

Diabetes mellitus (DM) compreende um conjunto de doenças metabólicas de grande importância e incidência mundial. Nele, o DM do tipo 1 é caracterizado pela destruição de células pancreáticas produtoras de insulina, e dentre seus sintomas, a disfunção imunológica relacionada à falta de insulina foi observada por diversos estudos, descrevendo pacientes diabéticos como mais susceptíveis a infecções e complicações decorrentes destas. Paracoccidioidomicose (PCM) é uma enfermidade sistêmica causada por fungos da espécie Paracoccidioides sp., bastante importante no Brasil e endêmica em toda a América Latina. Este trabalho utiliza um modelo de carência relativa de insulina (DM experimental) para estudar a intervenção da insulina em um modelo de micose pulmonar causada por P. brasiliensis, analisando o processo de migração celular (expressão de moléculas de adesão por imunohistoquímica e fenótipo dos leucócitos do pulmão por citometria de fluxo), os mecanismos moleculares (produção/liberação de citocinas por cytometric bead array), intracelulares (vias de sinalização por Western blot), e a atividade fagocítica e microbicida dos macrófagos alveolares. Em resultados observamos que, comparados aos não-diabéticos, camundongos tornados diabéticos apresentam maior susceptibilidade evidenciada por menor atividade fagocítica e reduzidas secreções de interferon-γ e de interleucina-12 na fase inicial da inflamação, que leva a uma resposta menos efetiva com menor expressão de molécula de adesão de células vasculares, reduzidas populações de linfócitos TCD4+, TCD8+, células natural killer, culminando em inflamação crônica resultante da proliferação aumentada do fungo nos pulmões (aumento de interferon-γ e fator necrótico tumoral-ß). Vemos ainda que o tratamento de insulina em animais diabéticos restaurou as secreções de citocinas pró-inflamatórias e a atividade fagocítica de macrófagos em 24 horas de infecção, e aumentou a celularidade, a expressão de moléculas de adesão de células vasculares-1 e restaurou as populações de linfócitos B, de células natural killer e de células coestimuladas por CD80, além de reduzir a inflamação crônica no pulmão. Estes dados em conjunto nos permitem inferir que a insulina modulou o ambiente inflamatório de animais tornados diabéticos de formas diferentes em estágios iniciais e tardios da infecção pelo isolado Pb18 do Paracoccidioides brasiliensis

Diabetes mellitus comprehends a group of metabolic diseases of great importance and incidence worldwide. Type 1 diabetes mellitus is characterized by destruction of insulin producing-pancreatic cells and, among its symptoms, an impaired immunological function has been observed in many studies having diabetic patients described as more susceptible to infections and complications resulted of them. Paracoccidioidomycosis is a systemic disease caused by fungi of Paracoccidioides spp. , also of great importance in Brazil and endemic in the whole Latin America. This work uses a model of experimental T1DM to investigate the intervention of insulin in a model of murine PCM induced by Paracoccidioides brasiliensis, analyzing the process of cell migration (adhesion molecules expression, leukocyte phenotyping), molecular mechanisms (production and secretion of cytokines), intracellular mechanisms (signaling pathways) and phagocytic and microbicidal activities in alveolar macrophages. In results, compared to controls, we observed higher susceptibility in diabetic mice to PCM, evidenced by reduced phagocytic activity and reduced levels of interferon-γ and interleukin-12 on initial stages of infection, and a less effective inflammation with lesser expression of adhesion molecules, reduced migration of TCD4+, TCD8+, NK cells and B lymphocytes, resulting in chronic inflammation caused by higher fungal proliferation in lungs (higher interferon-γ and tumours necrosis factor-α levels). In addition, we saw treatment with insulin in diabetic animals restored secretion of pro-inflammatory cytokines and phagocytic activity on early stages and allowed higher cellularity, higher expression of vascular cells adhesion molecule-1 and restored populations of B lymphocytes, NK cells and the expression of costimularoty molecule CD80, also reducing the chronic inflammation in lungs. Taken together, these data lead us to suggest insulin modulated the inflammatory microenvironment in lungs of mice rendered diabetic, in different forms on earlier and later stages of an infection by Pb18 isolate

Analysis of Signaling Pathways by Western Blotting and Immunoprecipitation.

This chapter describes the analysis of signaling pathways in bone cells by the use of western blotting and immunoprecipitation, including a step-by-step guide to cell culture techniques, cellular and subcellular fractionation, protein isolation, purification, measurement, electrophoretic transfer, and detection.

Determination of Phosphorylated Histone H2AX in Nanoparticle-Induced Genotoxic Studies.

DNA double-strand breaks (DSBs), one of the most severe lesions of DNA damage triggered by various genotoxic insults, can lead to chromosome change, genomic instability, and even tumorigenesis if not repaired efficiently. In response to DNA damage, histone H2AX molecules are rapidly phosphorylated at serine 139 near the site of DNA DSBs and form γ-H2AX foci. As an early important cellular event linked to DNA damage and repair, γ-H2AX is a highly sensitive biomarker for "monitoring" DNA damage and consequently is a useful tool in genetic toxicology screen. We and other researchers have used γ-H2AX as a marker to assess the potential genotoxic effects of some nanoparticles in vitro and in vivo. In this chapter, we describe several useful methods for γ-H2AX detection, which can be used to evaluate the potential genotoxic effects of nanoparticles.

Measuring the Activation of Cell Death Pathways upon Inhibition of Metabolism.

Nutrient starvation or inhibition of cellular metabolism can induce cancer cell death. This can be measured by a variety of methods. We describe here four simple methods to measure cell death in culture by using microscopy, western blot, and flow cytometry. We also provide tools to differentiate between different forms of cell death like apoptosis and necrosis by using chemical inhibitors.

Ex-Vivo Signal Transduction Studies in Chronic Lymphocytic Leukemia.

Microenvironmental signaling is pivotal to chronic lymphocytic leukemia (CLL) pathology; therefore understanding how to investigate this pathway by both protein and chemical methods is crucial if we are to investigate and correlate biological changes with therapeutic responses in patients. Herein, we describe the use of western blotting also referred to as immunoblotting as a method that can semiquantitatively evaluate changes in protein expression following receptor engagement; this includes B cell receptor (BCR) signaling following stimulation with anti-IgM (Blunt et al. Clin Cancer Res 23(9):2313-2324, 2017). It is important to note that immunoblotting should always be combined with other quantitative methods such as flow cytometry to confirm activation of these signaling pathways (Aguilar-Hernandez et al. Blood 127(24):3015-3025, 2016).

Analysis of Nanomaterial Toxicity by Western Blot.

Western blot is a routine biochemical technique for the immunodetection of proteins in cells and tissues exposed to nanomaterials (NMs). It is a sensitive method for protein analysis that involves the solubilization and separation of proteins by sodium dodecyl sulfate-polyacrylamide gel electrophoresis (SDS-PAGE), transferring and immobilizing proteins onto a solid support, and targeted immunoprobing of a specific antigen. As a convenient and reliable research tool, the western blot plays an irreplaceable role in the era of proteomics together with mass spectrometry and protein chip. In this chapter we describe the detailed protocol for the entire process from sample preparation to quantitative measurement of target proteins.

Evaluation of Nrf2 with Exposure to Nanoparticles.

Transcription factor Nrf2, nuclear factor (erythroid-derived 2)-like 2, is considered a master regulator of redox homeostasis and plays a central role in antioxidant and anti-inflammatory defence. It has been largely reported that oxidative stress is implicated in nanoparticle-induced toxicity with the involvement of Nrf2. Several basic methods for Nrf2 evaluation with exposure to nanoparticles are described in this chapter including real-time reverse transcription-polymerase chain reaction (RT-PCR), western blotting, immunofluorescence staining, electrophoretic mobility shift assay, DNase I footprinting, dimethylsulfate footprinting, protein pulse-chase analysis, and tert-butylhydroquinone treatment.

Hesperidin inhibits the epithelial to mesenchymal transition induced by transforming growth factor-ß1 in A549 cells through Smad signaling in the cytoplasm

Hesperidin, a natural compound, suppresses the epithelial-to-mesenchymal transition through the TGF-ß1/Smad signaling pathway. However, studies on the detailed effects and mechanisms of hesperidin are rare. The present study showed that, for A549 alveolar epithelial cells, the anti-proliferative effects of hesperidin occurred in a dose-dependent manner, with an IC50= 216.8 µM at 48 h. TGF-ß1 was used to activate the Smad signaling pathway and induce the epithelial to mesenchymal transition in cells. Treatment with hesperidin or SB431542 was used for antagonism of Smad pathway activation. Hesperidin inhibited the increase in ɑ-SMA and Col1ɑ-1 and the decrease in E-cadherin in a dose-dependent manner from concentration of 20 µM to 60 µM, as assessed by both ELISA and Western blotting assays; however, there was no significant effect on cellular morphological alterations. Moreover, the Western blotting assay showed that, in the cytoplasm, hesperidin and SB431542 had no significant effect on the protein expression of Smad 2, 3, 4, or 7 as well as 2/3. However, 60 µM hesperidin and SB431542 significantly decreased p-Smad2/3 protein expression. From the above results, it is concluded that hesperidin can partly inhibit the epithelial to mesenchymal transition in human alveolar epithelial cells; the effect accounts for the blockage of the phosphorylation of Smad2/3 in the cytoplasm rather than a change in Smad protein production in the cytoplasm

BMP4 Induces Cardiomyocyte Hypertrophy Through the Activation of ERK 1/2 Signaling Pathway in H9c2 Cells

Abstract Bone morphogenetic protein-4 (BMP4) is a member of the bone morphogenetic protein family which plays an important role in bone formation, inflammation and cardiac hypertrophy. The aim of this study was to investigate the underlying molecular mechanism that BMP4-induced cardiomyocyte hypertrophy. H9c2 cells were used to measure cell surface area and protein synthesis. Western blot was used to examine hypertrophic marker brain natriuretic peptide (BNP) protein expression and phosphorylation of ERK1/2. The results exhibited that cell surface area, protein synthesis and BNP protein expression were increased with BMP4 treatment. While PD98059 inhibited these effects of BMP4. In addition, BMP4 treatment increased phosphorylation of ERK1/2 in a time- and dose-dependent manner. PD98059 treatment decreased phosphorylation of ERK1/2 that was increased by BMP4. These results suggest that BMP4 induces cardiomyocyte hypertrophy through the activation of ERK1/2 cell signaling pathway.

Investigação da quinase IKKß como um alvo terapêutico anti-metastático em câncer de pulmão associado à ativação do oncogene KRAS / Exploring IKKß as an anti-metastatic therapeutic target in KRAS-induced lung câncer

O câncer de pulmão é o tipo de câncer que apresenta o maior índice de mortalidade em todo o mundo. As alterações genéticas mais frequentes em câncer de pulmão são as mutações pontuais no oncogene que codifica a GTPase KRAS. Apesar destas mutações estarem diretamente ligadas à oncogênese, terapias que visam inibir diretamente a proteína Ras falharam em ensaios clínicos. Uma das propriedades mais importantes na oncogênese é a aquisição de capacidade metastática tumoral. Desta forma, o objetivo deste projeto é identificar alvos terapêuticos que inibam as metástases tumorais induzidas pelo oncogene KRAS no pulmão. Com base em relatos recentes mostrando que a forma oncogênica de KRAS promove, não só a iniciação tumoral, mas também promove a aquisição de um fenótipo metastático, a hipótese deste projeto é que (1) a capacidade mestastática tumoral induzida por KRAS no pulmão é potencializada pela quinase IKKß; e (2) que a inibição desta quinase reduzirá a capacidade invasiva celular e metastática tumoral. Esta hipótese foi formulada com base em estudos anteriores, os quais demonstraram que o principal substrato da IKKß, o fator de transcrição NF-κB, é ativado por KRAS em tumores pulmonares in situ de forma dependente da IKKß, que o NF-κB é capaz de promover metástase em diferentes modelos tumorais, e que a inibição da atividade da IKKß com um inibidor farmacológico em um modelo animal de câncer de pulmão induzido por KRAS, diminui o crescimento tumoral e a progressão tumoral para graus histológicos mais avançados. Nosso objetivo era avaliar se a inibição de IKKß é capaz de afetar a migração e invasão de células portadoras de mutação em KRAS in vitro e se a inibição de IKKß é capaz de afetar a capacidade metatática dessas células in vivo. Primeiramente, avaliamos a expressão de enzimas relacionadas ao fenótipo metastático, as metaloproteinases de matriz 2 e 9 (MMP-2 e MMP-9) e, também uma molécula intimamente relacionada ao processo de adesão mediado por integrinas, FAK (quinase de adesão focal), frente a inibição de IKKß através de um inibidor farmacológico altamente especifico (Composto A) e frente a inibição genética de IKKß por interferência de RNA (siRNA) em células A549 e H358. Avaliamos também a atividade das MMPs frente inibição genética de KRAS (siKRAS) e IKKß (siIKKß) e vimos que IKKß parece modular a expressão ou atividade de MMP-9 e reduz a expressão de FAK. Já a expressão de MMP-2 não apresentou alteração. Posteriormente avaliamos migração na célula A549 e invasão nas células A549 e H358 com inibição de IKKß, por ensaios Transwell, e observamos uma redução da migração e invasão celular in vitro. Em seguida, fomos gerar linhagens celulares paraa expressar luciferase, as linhagens A549 pLUC e H358 pLUC. Os clones A549 pLUC B4 e H358 pLUC F1 com inibição de KRAS e IKKß por interferência de RNA, foram injetados pela veia da cauda nesses camundongos e as metástases foram monitoradas por imageamento in vivo. Houve metástases em 20% dos animais com siIKKß na região anatômica da boca. Os animais que receberam siControle e siKRAS não apresentaram nenhuma metástase visível no equipamento, mas foi observado micrometástases nas análises histológicas dos pulmões. O resultado do experimento de metástase in vivo é inesperado, não só pelo fato de ocorrer no grupo experimental siIKKß, mas também pelo local anatômico do tumor, sendo necessária uma maior investigação do papel de IKKß nesse processo, podendo ser um resultado aleatório. Quando avaliamos em conjunto, nossos resultados sugerem que a quinase IKKß desempenha um papel importante no fenótipo migratório e invasivo de células pulmonares portadoras de KRAS oncogênica, contribuindo para a capacidade metastática

Lung cancer is the leading cause of cancer deaths worldwide. The most frequent genetic changes found in lung cancer are driver mutations in the KRAS proto-oncogene. Even though KRAS mutations have been causally linked to the oncogenic process, therapies targeted to oncogenic RAS have failed in clinical trials. One of the main characteristics in oncogenesis is the ability of tumors to acquire metastatic capability. The objective of this project is to identify therapeutic targets that reduce KRASinduced lung cancer metastasis. Based on previous reports that oncogenic KRAS, drives not only tumor initiation, but also promotes a metastatic phenotype, the hypothesis of this project is that (1) the acquisition of metastatic ability induced by KRAS in the lung is potentiated by the IKK kinase; and (2) that IKKß inhibition will reduce KRAS-induced cell invasive properties and KRAS-induced tumor metastasis. This hypothesis has been formulated on the basis of previous studies showing that the main IKKß substrate, the transcription factor NF-κB, is activated by KRAS in lung tumors in situ in an IKKß-dependent manner, that NF-κB is known to promote metastasis in different tumor models, and that pharmacological IKKß inhibition in a KRAS-induced lung cancer mouse model reduces tumor growth and progression to higher histological tumor grades. Our goal was evaluate how inhibition of IKKß affects migration and invasion of KRAS-positive lung cells in vitro and whether inhibition of IKKß is capable of affecting the metatactic capacity of these cells in vivo. First, we evaluated the expression of enzymes involved in the metastatic phenotype, matrix metalloproteinases 2 and 9 (MMP-2 and MMP-9) and also a molecule involved in the integrinmediated adhesion, FAK (focal adhesion kinase), we targeted IKKß by a highly specific IKK inhibitor (Compound A) or with RNA interference in A549 and H358 cells. We also used colorimetric Matrix Biotrak Activity Assay System to measure the activity of MMPs with RNA interference for KRAS (siKRAS) and IKKß (IKKß) and we have seen that IKKß appears to modulate the expression or activity of MMP-9 and decreases the expression of FAK. The expression of MMP-2 did not change. Then we evaluated migration in A549 cell and invasion in A549 and H358 cells with inhibition of IKK by RNA interference or with Compound A treatment in Transwell assays, and observed a significantly reduced cell migration and invasion in vitro. We then generated cell lines to express luciferase, the A549 pLUC and H358 pLUC lines. A549 pLUC B4 and H358 pLUC F1 cells with RNA interference for KRAS and IKKß were injected in the tail vein in nude (balb/c) mice and metastases were monitored by in vivo imaging. There were metastases in 20% of IKKß animals in the anatomical region of the mouth. Animals that received siControl and siKRAS had no visible metastasis in the live imaging, but micrometastases were observed in the histological analyzes of the lungs. The result of this experiment is unexpected, not only due to the fact that it occurs in the IKKß experimental group, but also due to the anatomical site of the tumor, and a further investigation of the role of IKKß in this process, can be a random result. When evaluated together, our results suggest that the IKKß kinase plays an important role in the migratory and invasive phenotype of in KRAS positive lung cancer cells, contributing to metastatic capacity

Rapid and efficient western blot assay by rotational cyclic draining and replenishing procedure.

Western blot is a principal technique for the detection of specific proteins in various biology disciplines. The antibody incubation is an imperative step in western blot. Antibody incubation by mild shaking on a rocker is generally used to facilitate mixing of antibodies. However, mild shaking is an inefficient process to remove antibody depletion layer on blotting membrane and requires hours of incubation time to achieve antibody binding to target proteins. We propose an alternative method of cyclic draining and replenishing (CDR) incubation of antibody solution using a rotational incubation chamber. The study demonstrated that rotational CDR incubation could shorten antibody incubation time with enhanced sensitivity. Moreover, rotational CDR incubation could achieve a stronger antibody binding with lower antibody concentration when compared with batch incubation. In addition, rotational CDR incubation significantly improved the detection of low abundance proteins. This simple modification in western blot procedure makes it rapid, sensitive, and cost-efficient.

Assessing Autophagic Activity and Aggregate Formation of Mutant Huntingtin in Mammalian Cells.

The accumulation of mutant aggregate-prone proteins is a hallmark of the majority of neurodegenerative disorders, including Alzheimer's, Parkinson's, and Huntington's diseases. Autophagy, a cytosolic bulk degradation system, is the major clearance pathway for several aggregate-prone proteins, such as mutant huntingtin. The autophagosome-associated protein LC3-II is a specific marker of autophagic flux within cells, whereas aggregate formation of mutant huntingtin represents a good readout for studying autophagy modulation. Here we describe the method of assessing autophagic flux using LC3-II western blotting and substrate clearance by expressing the N-terminal fragment of huntingtin (htt exon 1) containing an expanded polyglutamine tract in mammalian cells.