Your search keyword '"Fukumasu Heidge"' showing total 15 results

1. Skin transcriptomic analysis reveals candidate genes and pathways associated with thermotolerance in hair sheep.

Author

de Andrade Pantoja, Messy Hannear, Poleti, Mirele Daiana, de Novais, Francisco José, Duarte, Kelly Kéffny Souza, Mateescu, Raluca G., Mourão, Gerson Barreto, Coutinho, Luiz Lehmann, Fukumasu, Heidge, and Titto, Cristiane Gonçalves

Subjects

SHEEP, TRANSCRIPTOMES, GENES, RIBOSOMAL RNA, SOLAR radiation, SHEEP breeds

Abstract

The skin plays an important role in thermoregulation. Identification of genes on the skin that contribute to increased heat tolerance can be used to select animals with the best performance in warm environments. Our objective was to identify candidate genes associated with the heat stress response in the skin of Santa Ines sheep. A group of 80 sheep assessed for thermotolerance was kept in a climatic chamber for 8 days at a stress level temperature of 36 °C (10 am to 04 pm) and a maintenance temperature of 28 °C (04 pm to 10 am). Two divergent groups, with seven animals each, were formed after ranking them by thermotolerance using rectal temperature. From skin biopsy samples, total RNA was extracted, quantified, and used for RNA-seq analysis. 15,989 genes were expressed in sheep skin samples, of which 4 genes were differentially expressed (DE; FDR < 0.05) and 11 DE (FDR 0.05–0.177) between the two divergent groups. These genes are involved in cellular protection against stress (HSPA1A and HSPA6), ribosome assembly (28S, 18S, and 5S ribosomal RNA), and immune response (IGHG4, GNLY, CXCL1, CAPN14, and SAA-4). The candidate genes and main pathways related to heat tolerance in Santa Ines sheep require further investigation to understand their response to heat stress in different climatic conditions and under solar radiation. It is essential to verify whether these genes and pathways are present in different breeds and to understand the relationship between heat stress and other genes identified in this study. [ABSTRACT FROM AUTHOR]

Published

2024

2. Nanoparticle-based DNA vaccine protects against SARS-CoV-2 variants in female preclinical models.

Author

Guimaraes, Lays Cordeiro, Costa, Pedro Augusto Carvalho, Scalzo Júnior, Sérgio Ricardo Aluotto, Ferreira, Heloísa Athaydes Seabra, Braga, Ana Carolina Soares, de Oliveira, Leonardo Camilo, Figueiredo, Maria Marta, Shepherd, Sarah, Hamilton, Alex, Queiroz-Junior, Celso Martins, da Silva, Walison Nunes, da Silva, Natália Jordana Alves, Rodrigues Alves, Marco Túllio, Santos, Anderson Kenedy, de Faria, Kevin Kelton Santos, Marim, Fernanda Martins, Fukumasu, Heidge, Birbrair, Alexander, Teixeira-Carvalho, Andréa, and de Aguiar, Renato Santana

Abstract

A safe and effective vaccine with long-term protection against SARS-CoV-2 variants of concern (VOCs) is a global health priority. Here, we develop lipid nanoparticles (LNPs) to provide safe and effective delivery of plasmid DNA (pDNA) and show protection against VOCs in female small animal models. Using a library of LNPs encapsulating unique barcoded DNA (b-DNA), we screen for b-DNA delivery after intramuscular administration. The top-performing LNPs are further tested for their capacity of pDNA uptake in antigen-presenting cells in vitro. The lead LNP is used to encapsulate pDNA encoding the HexaPro version of SARS-CoV-2 spike (LNP-HPS) and immunogenicity and protection is tested in vivo. LNP-HPS elicit a robust protective effect against SARS-CoV-2 Gamma (P.1), correlating with reduced lethality, decreased viral load in the lungs and reduced lung damage. LNP-HPS induce potent humoral and T cell responses against P.1, and generate high levels of neutralizing antibodies against P.1 and Omicron (B.1.1.529). Our findings indicate that the protective efficacy and immunogenicity elicited by LNP-HPS are comparable to those achieved by the approved COVID-19 vaccine from Biontech/Pfizer in animal models. Together, these findings suggest that LNP-HPS hold great promise as a vaccine candidate against VOCs.Here the authors screen different lipid nanoparticle (LNP) formulations for intramuscular delivery of plasmid DNA and uptake by antigen-presenting cells. The lead LNP exhibits immunogenicity and protection in small animal models that is comparable to approved SARS-CoV-2 mRNA vaccine formulations. [ABSTRACT FROM AUTHOR]

Published

2024

3. Transcriptome profile of skeletal muscle using different sources of dietary fatty acids in male pigs.

Author

Fanalli, Simara Larissa, da Silva, Bruna Pereira Martins, Gomes, Julia Dezen, de Almeida, Vivian Vezzoni, Moreira, Gabriel Costa Monteiro, Silva-Vignato, Bárbara, Afonso, Juliana, Freitas, Felipe André Oliveira, Reecy, James Mark, Koltes, James Eugene, Koltes, Dawn, Garrick, Dorian, de Almeida Regitano, Luciana Correia, de Carvalho Balieiro, Júlio César, Mourão, Gerson Barreto, Coutinho, Luiz Lehmann, Fukumasu, Heidge, Poleti, Mirele Daiana, de Alencar, Severino Matias, and Luchiari Filho, Albino

Abstract

Pork is of great importance in world trade and represents the largest source of fatty acids in the human diet. Lipid sources such as soybean oil (SOY), canola (CO), and fish oil (FO) are used in pig diets and influence blood parameters and the ratio of deposited fatty acids. In this study, the main objective was to evaluate changes in gene expression in porcine skeletal muscle tissue resulting from the dietary oil sources and to identify metabolic pathways and biological process networks through RNA-Seq. The addition of FO in the diet of pigs led to intramuscular lipid with a higher FA profile composition of C20:5 n-3, C22:6 n-3, and SFA (C16:0 and C18:0). Blood parameters for the FO group showed lower cholesterol and HDL content compared with CO and SOY groups. Skeletal muscle transcriptome analyses revealed 65 differentially expressed genes (DEG, FDR 10%) between CO vs SOY, and 32 DEG for CO vs FO, and 531 DEG for SOY vs FO comparison. Several genes, including AZGP1, PDE3B, APOE, PLIN1, and LIPS, were found to be down-regulated in the diet of the SOY group compared to the FO group. The enrichment analysis revealed DEG involved in lipid metabolism, metabolic diseases, and inflammation between the oil groups, with specific gene functions in each group and altered blood parameters. The results provide mechanisms to help us understand the behavior of genes according to fatty acids. [ABSTRACT FROM AUTHOR]

Published

2023

4. Identification of eQTLs and differential gene expression associated with fetal programming in beef cattle.

Author

Polizel, Guilherme Henrique Gebim, Cesar, Aline Silva Mello, Cracco, Roberta Cavalcante, Fernandes, Arícia Christofaro, Reginato, Gustavo Morandini, Xavier, Pedro Luiz Porfirio, Mortari, Isabela, Furlan, Édison, Fukumasu, Heidge, and Santana, Miguel Henrique de Almeida

Abstract

This study assessed differential gene expression and identified expression quantitative trait loci (eQTLs) from samples of Longissimus lumborum muscle from bulls at 15 months of age submitted to different prenatal nutrition. Upon confirmation of pregnancy, 126 dams were separated into three diet treatments varying the period of inclusion of energy protein supplementation (NP, PP, and FP). At calving, 63 males were genotyped with GGP LD BeadChip. The skeletal muscle of 15 bulls was sequenced (RNA-seq) at 15 months of age. The EdgeR package was used for differential gene expression and principal component analysis (PCA), and the Matrix eQTL package was used for the eQTLs analysis (R statistical). The functional enrichment analysis was performed using the MetaCore® software. No genes differentially expressed were found between treatments (FDR > 0.05); nevertheless, we found 179 cis-tag-eQTLs and 20,762 trans-tag-eQTLs (FDR < 0.05) after linkage disequilibrium analysis. The functional enrichment analysis identified terms from gene ontology related to genes associated to trans-eQTLs (FDR < 0.05) as well as metabolic pathways (> gScore). Most biological pathways and genes found had been previously associated to fetal programming. The different prenatal supplementation strategies did not impact on muscle transcriptome of bulls. Additionally, there is a link between genotype and gene expression levels related to developmental traits in Nellore cattle. [ABSTRACT FROM AUTHOR]

Published

2022

5. Prune homolog 2 with BCH domain (PRUNE2) gene expression is associated with feed efficiency-related traits in Nelore steers.

Author

Lima, Andressa Oliveira, Malheiros, Jessica Moraes, Afonso, Juliana, Petrini, Juliana, Coutinho, Luiz Lehmann, da Silva Diniz, Wellison Jarles, Bressani, Flávia Aline, Tizioto, Polyana Cristine, de Oliveira, Priscila Silva Neubern, Ribeiro, Janssen Ayna Silva, de Oliveira, Karina Santos, Rocha, Marina Ibelli Pereira, Andrade, Bruno Gabriel Nascimento, Fukumasu, Heidge, Beiki, Hamid, Reecy, James Mark, Zerlotini, Adhemar, Mourao, Gerson Barreto, and de Almeida Regitano, Luciana Correia

Subjects

CONNECTIVE tissue growth factor, GENE expression, BEEF industry, ANIMAL feeding, CYTOCHROME P-450

Abstract

Animal feeding is a critical factor in increasing producer profitability. Improving feed efficiency can help reduce feeding costs and reduce the environmental impact of beef production. Candidate genes previously identified for this trait in differential gene expression studies (e.g., case–control studies) have not examined continuous gene-phenotype variation, which is a limitation. The aim of this study was to investigate the association between the expression of five candidate genes in the liver, measured by quantitative real-time PCR and feed-related traits. We adopted a linear mixed model to associate liver gene expression from 52 Nelore steers with the following production traits: average daily gain (ADG), body weight (BW), dry matter intake (DMI), feed conversion ratio (FCR), feed efficiency (FE), Kleiber index (KI), metabolic body weight (MBW), residual feed intake (RFI), and relative growth ratio (RGR). The total expression of the prune homolog 2 (PRUNE2) gene was significantly associated with DMI, FCR, FE, and RFI (P < 0.05). Furthermore, we have identified a new transcript of PRUNE2 (TCONS_00027692, GenBank MZ041267) that was inversely correlated with FCR and FE (P < 0.05), in contrast to the originally identified PRUNE2 transcript. The cytochrome P450 subfamily 2B (CYP2B6), early growth response protein 1 (EGR1), collagen type I alpha 1 chain (COL1A1), and connective tissue growth factor (CTGF) genes were not associated with any feed efficiency-related traits (P > 0.05). The findings reported herein suggest that PRUNE2 expression levels affects feed efficiency-related traits variation in Nelore steers. [ABSTRACT FROM AUTHOR]

Published

2022

6. Effect of dietary soybean oil inclusion on liver-related transcription factors in a pig model for metabolic diseases.

Author

Fanalli, Simara Larissa, da Silva, Bruna Pereira Martins, Gomes, Julia Dezen, Ciconello, Fernanda Nery, de Almeida, Vivian Vezzoni, Freitas, Felipe André Oliveira, Moreira, Gabriel Costa Monteiro, Silva-Vignato, Bárbara, Afonso, Juliana, Reecy, James, Koltes, James, Koltes, Dawn, Regitano, Luciana Correia Almeida, de Carvalho Baileiro, Júlio Cesar, Freitas, Luciana, Coutinho, Luiz Lehmann, Fukumasu, Heidge, de Alencar, Severino Matias, Luchiari Filho, Albino, and Cesar, Aline Silva Mello

Subjects

METABOLIC disorders, TRANSCRIPTION factors, METABOLIC models, LIPID metabolism, SOY oil, CELL communication, HOMEOSTASIS

Abstract

Dietary fatty acids (FA) are components of the lipids, which contribute to membrane structure, energy input, and biological functions related to cellular signaling and transcriptome regulation. However, the consumers still associate dietary FA with fat deposition and increased occurrence of metabolic diseases such as obesity and atherosclerosis. Previous studies already demonstrated that some fatty acids are linked with inflammatory response, preventing metabolic diseases. To better understand the role of dietary FA on metabolic diseases, for the first time, a study to identify key transcription factors (TF) involved in lipid metabolism and inflammatory response by transcriptome analysis from liver samples of animal models was performed. The key TF were identified by functional enrichment analysis from the list of differentially expressed genes identified in liver samples between 35 pigs fed with 1.5% or 3.0% soybean oil. The functional enrichment analysis detected TF linked to lipid homeostasis and inflammatory response, such as RXRA, EGFR, and SREBP2 precursor. These findings demonstrated that key TF related to lipid metabolism could be modulated by dietary inclusion of soybean oil. It could contribute to nutrigenomics research field that aims to elucidate dietary interventions in animal and human health, as well as to drive food technology and science. [ABSTRACT FROM AUTHOR]

Published

2022

7. Intercellular interactions between mast cells and stromal fibroblasts obtained from canine cutaneous mast cell tumours.

Author

Pulz, Lidia H., Cordeiro, Yonara G., Huete, Greice C., Cadrobbi, Karine G., Rochetti, Arina L., Xavier, Pedro L. P., Nishiya, Adriana Tomoko, de Freitas, Silvio Henrique, Fukumasu, Heidge, and Strefezzi, Ricardo F.

Subjects

STROMAL cells, DRUG target, MAST cells, FIBROBLASTS, SKIN tumors, GROWTH factors, CELL survival

Abstract

Mast cell tumours (MCTs) are the most frequent malignant skin neoplasm in dogs. Due to the difficulty in purifying large numbers of canine neoplastic mast cells, relatively little is known about their properties. A reproducible in vitro model is needed to increase the understanding about the phenotype and functional properties of neoplastic mast cells. In the present study, we describe the establishment of primary cocultures of neoplastic mast cells from canine cutaneous MCTs and cancer-associated fibroblasts. We confirmed the inability of canine neoplastic mast cells to remain viable for long periods in vitro without the addition of growth factors or in vivo passages in mice. Using a transwell system, we observed that mast cell viability was significantly higher when there is cell-to-cell contact in comparison to non-physical contact conditions and that mast cell viability was significantly higher in high-grade than in low-grade derived primary cultures. Moreover, the use of conditioned medium from co-cultured cells led to a significantly higher tumoral mast cell viability when in monoculture. Signalling mechanisms involved in these interactions might be attractive therapeutic targets to block canine MCT progression and deserve more in-depth investigations. [ABSTRACT FROM AUTHOR]

Published

2021

8. Systems Biology Application in Feed Efficiency in Beef Cattle.

Author

Fukumasu, Heidge, Santana, Miguel Henrique, Alexandre, Pamela Almeida, and Ferraz, José Bento Sterman

Published

2016

9. Copy number variations and genome-wide associations reveal putative genes and metabolic pathways involved with the feed conversion ratio in beef cattle.

Author

Santana, Miguel, Junior, Gerson, Cesar, Aline, Freua, Mateus, Gomes, Rodrigo, Silva, Saulo, Leme, Paulo, Fukumasu, Heidge, Carvalho, Minos, Ventura, Ricardo, Coutinho, Luiz, Kadarmideen, Haja, and Ferraz, José

Abstract

The use of genome-wide association results combined with other genomic approaches may uncover genes and metabolic pathways related to complex traits. In this study, the phenotypic and genotypic data of 1475 Nellore ( Bos indicus) cattle and 941,033 single nucleotide polymorphisms (SNPs) were used for genome-wide association study (GWAS) and copy number variations (CNVs) analysis in order to identify candidate genes and putative pathways involved with the feed conversion ratio (FCR). The GWAS was based on the Bayes B approach analyzing genomic windows with multiple regression models to estimate the proportion of genetic variance explained by each window. The CNVs were detected with PennCNV software using the log R ratio and B allele frequency data. CNV regions (CNVRs) were identified with CNVRuler and a linear regression was used to associate CNVRs and the FCR. Functional annotation of associated genomic regions was performed with the Database for Annotation, Visualization and Integrated Discovery (DAVID) and the metabolic pathways were obtained from the Kyoto Encyclopedia of Genes and Genomes (KEGG). We showed five genomic windows distributed over chromosomes 4, 6, 7, 8, and 24 that explain 12 % of the total genetic variance for FCR, and detected 12 CNVRs (chromosomes 1, 5, 7, 10, and 12) significantly associated [false discovery rate (FDR) < 0.05] with the FCR. Significant genomic regions (GWAS and CNV) harbor candidate genes involved in pathways related to energetic, lipid, and protein metabolism. The metabolic pathways found in this study are related to processes directly connected to feed efficiency in beef cattle. It was observed that, even though different genomic regions and genes were found between the two approaches (GWAS and CNV), the metabolic processes covered were related to each other. Therefore, a combination of the approaches complement each other and lead to a better understanding of the FCR. [ABSTRACT FROM AUTHOR]

Published

2016

10. Electroporation Transiently Decreases GJB2 (Connexin 26) Expression in B16/BL6 Melanoma Cell Line.

Author

Rangel, Marcelo, Chaible, Lucas, Nagamine, Marcia, Mennecier, Gregory, Cogliati, Bruno, Oliveira, Krishna, Fukumasu, Heidge, Sinhorini, Idércio, Mir, Lluis, and Dagli, Maria

Subjects

ELECTROPORATION, MELANOMA, CELL lines, IMMUNOCYTOCHEMISTRY, IMMUNOSTAINING, WESTERN immunoblotting

Abstract

Connexins are proteins that form gap junctions. Perturbations in the cell membrane reportedly promote changes in the expression profile of connexins. Electroporation promotes destabilization by applying electrical pulses, and this procedure is used in electrochemotherapy and gene therapy, among others. This in vitro work aimed to study the interference of electroporation on the expression profile of GJB2 (Cx26 gene) and Connexin 26 in melanoma cell line B16/BL6. The techniques of immunocytochemistry, Western blot, and real-time PCR were used. After electroporation, cells showed a transient decrease in GJB2 mRNA. The immunostaining of Cx26 showed no noticeable change after electroporation at different time points. However, Western blot showed a significant reduction in Cx26 30 min after electroporation. Our results showed that electroporation interferes transiently in the expression of Connexin 26 in melanoma and are consistent with the idea that electroporation is a process of intense stress that promotes cell homeostatic imbalance and results in disruption of cell physiological processes such as transcription and translation. [ABSTRACT FROM AUTHOR]

Published

2015

11. In vitro inhibitory effect of trichostatin A on canine grade 3 mast cell tumor.

Author

Nagamine, Marcia, Sanches, Daniel, Pinello, Katia, Torres, Luciana, Mennecier, Gregory, Latorre, Andréia, Fukumasu, Heidge, and Dagli, Maria

Abstract

Mast cell tumor (MCT) is one of the most prevalent neoplasms that affect skin and soft tissue in dogs. Because mast cell tumors present a great variety of clinical appearance and behavior, their treatment becomes a challenge. Trichostatin A (TSA), an antifungal antibiotic, has shown inhibitory effects on the proliferation and induction of apoptosis in various types of cancer cells. In order to evaluate the potential of trichostatin A as a therapeutic drug, cells of grade 3 MCT were cultured and treated with concentrations of 1 nM to 400 nM of TSA. MTT assay and trypan blue exclusion assays were performed to estimate cell growth and cell viability, and cell cycle analysis was evaluated. TSA treatment showed a reduction in numbers of viable cells and an increase of cell death by apoptosis. The cell cycle analysis showed an increase of hypodiploid cells and a reduction of G0/G1 and G2/M -phases. According to these results, trichostatin A may be an interesting potential chemotherapeutic agent for the treatment of canine MCT. [ABSTRACT FROM AUTHOR]

Published

2011

12. Liquid biopsy based on small extracellular vesicles predicts chemotherapy response of canine multicentric lymphomas.

Author

Garnica, Taismara K., Lesbon, Jéssika C. C., Ávila, Ana C. F. C. M., Rochetti, Arina L., Matiz, Oscar R. S., Ribeiro, Roana C. S., Zoppa, Aline, Nishiya, Adriana T., Costa, Mirela T., de Nardi, Andrigo B., Argyle, David J., Strefezzi, Ricardo F., Silveira, Juliano C., and Fukumasu, Heidge

Subjects

LYMPHOMAS in dogs, CANCER chemotherapy, BIOPSY, VESICLES (Cytology), EXOSOMES

Abstract

Lymphoma is the most common type of canine hematological malignancy where the multicentric (cMCL) form accounts for 75% of all cases. The standard treatment is the CHOP chemotherapy protocols that include cyclophosphamide, doxorubicin, vincristine and prednisone, where the majority of dogs achieve complete/partial response; however, it is very important to predict non-responsive cases to improve treatment and to develop new targeted therapies. Here we evaluate a liquid biopsy approach based on serum Small Extracellular Vesicles enriched for exosomes (SEVs) to predict cMCL chemotherapy response. Nineteen dogs at the end of the 19-week chemotherapy protocol (8 Complete Response and 11 Progressive Disease) were evaluated for serum SEVs size, concentration and screened for 95 oncomirs. PD patients had higher SEVs concentration at the diagnosis than CR patients (P = 0.034). The ROC curve was significant for SEVs concentration to predict the response to CHOP (AUC = 0.8011, P = 0.0287). A potential molecular signature based on oncomirs from SEVs (caf-miR-205, caf-miR-222, caf-mir-20a and caf-miR-93) is proposed. To the best of our knowledge, this is the first study demonstrating the potential of a liquid biopsy based on SEVs and their miRNAs content to predict the outcome of chemotherapy for canine multicentric lymphomas. [ABSTRACT FROM AUTHOR]

Published

2020

13. An epigenetic screening determines BET proteins as targets to suppress self-renewal and tumorigenicity in canine mammary cancer cells.

Author

Xavier, Pedro L. P., Cordeiro, Yonara G., Alexandre, Pâmela A., Pires, Pedro R. L., Saranholi, Bruno H., Silva, Edson R., Müller, Susanne, and Fukumasu, Heidge

Subjects

EPIGENETICS, CANCER stem cells, NEOPLASTIC cell transformation, GENE expression, PHENOTYPES

Abstract

Targeting self-renewal and tumorigenicity has been proposed as a potential strategy against cancer stem cells (CSCs). Epigenetic proteins are key modulators of gene expression and cancer development contributing to regulation and maintenance of self-renewal and tumorigenicity. Here, we have screened a small-molecule epigenetic inhibitor library using 3D in vitro models in order to determine potential epigenetic targets associated with self-renewal and tumorigenicity in Canine Mammary Cancer (CMC) cells. We identified inhibition of BET proteins as a promising strategy to inhibit CMC colonies and tumorspheres formation. Low doses of (+)-JQ1 were able to downregulate important genes associated to self-renewal pathways such as WNT, NOTCH, Hedgehog, PI3K/AKT/mTOR, EGF receptor and FGF receptor in CMC tumorspheres. In addition, we observed downregulation of ZEB2, a transcription factor important for the maintenance of self-renewal in canine mammary cancer cells. Furthermore, low doses of (+)-JQ1 were not cytotoxic in CMC cells cultured in 2D in vitro models but induced G2/M cell cycle arrest accompanied by upregulation of G2/M checkpoint-associated genes including BTG2 and CCNG2. Our work indicates the BET inhibition as a new strategy for canine mammary cancers by modulating the self-renewal phenotype in tumorigenic cells such as CSCs. [ABSTRACT FROM AUTHOR]

Published

2019

14. Liver proteomics unravel the metabolic pathways related to Feed Efficiency in beef cattle.

Author

Fonseca, Leydiana D., Eler, Joanir P., Pereira, Mikaele A., Rosa, Alessandra F., Alexandre, Pâmela A., Moncau, Cristina T., Salvato, Fernanda, Rosa-Fernandes, Livia, Palmisano, Giuseppe, Ferraz, José B. S., and Fukumasu, Heidge

Abstract

Improving nutrient utilization efficiency is essential for livestock, given the current scenario of increasing demand for animal protein and sustainable resource use. In this context, understanding the biology of feed efficiency (FE) in beef cattle allows the development of markers for identification and selection of best animals for animal production. Thus, 98 young Nellore bulls were evaluated for FE and at the end of the experiment liver samples from six High Feed Efficient (HFE) and six Low Feed Efficient (LFE) animals were collected for protein extraction, digestion and analysis by HPLC-MS/MS. Data were analyzed for differential abundant proteins (DAPs), protein networks, and functional enrichment. Serum endotoxin was also quantified. We found 42 DAPs and 3 protein networks significantly related to FE. The main pathways associated with FE were: microbial metabolism; biosynthesis of fatty acids, amino acids and vitamins; glycolysis/gluconeogenesis; xenobiotic metabolism and; antigen processing and presentation. Serum endotoxins were significantly higher in LFE animals supporting the results. Therefore, the findings presented here confirmed the altered hepatic metabolism and pronounced hepatic inflammation in LFE animals supporting that the increased bacterial load is at least in part responsible for the hepatic lesions and inflammation in LFE animals. [ABSTRACT FROM AUTHOR]

Published

2019

15. RNA-Seq transcriptome analysis shows anti-tumor actions of melatonin in a breast cancer xenograft model.

Author

Jardim-Perassi, Bruna Victorasso, Alexandre, Pâmela A., Sonehara, Nathalia M., de Paula-Junior, Rubens, Reis Júnior, Osvaldo, Fukumasu, Heidge, Chammas, Roger, Coutinho, Luiz Lehmann, and Zuccari, Debora Aparecida Pires de Campos

Abstract

Melatonin is a pleiotropic anti-cancer molecule that controls cancer growth by multiple mechanisms. RNA-Seq can potentially evaluate therapeutic response and its use in xenograft tumor models can differentiate the changes that occur specifically in tumor cells or in the tumor microenvironment (TME). Melatonin actions were evaluated in a xenograft model of triple-negative breast cancer. Balb/c nude mice bearing MDA-MB-231 tumors were treated with melatonin or vehicle. RNA-Seq was performed on the Illumina HiSeq. 2500 and data were mapped against human and mouse genomes separately to differentiate species-specific expression. Differentially expressed (DE) genes were identified and Weighted Gene Co-expression Network Analysis (WGCNA) was used to detect clusters of highly co-expressed genes. Melatonin treatment reduced tumor growth (p < 0.01). 57 DE genes were identified in murine cells, which represented the TME, and were mainly involved in immune response. The WGCNA detected co-expressed genes in tumor cells and TME, which were related to the immune system among other biological processes. The upregulation of two genes (Tnfaip8l2 and Il1f6) by melatonin was validated in the TME, these genes play important roles in the immune system. Taken together, the transcriptomic data suggests that melatonin anti-tumor actions occur through modulation of TME in this xenograft tumor model. [ABSTRACT FROM AUTHOR]

Published

2019