Louise Danielle de Carvalho Mota

Reciprocal changes in gene expression profiles of cocultured breast epithelial cells and primary fibroblasts

The importance of epithelial‐stroma interaction in normal breast development and tumor progression has been recognized. To identify genes that were regulated by these reciprocal interactions, we cocultured a nonmalignant (MCF10A) and a breast cancer derived (MDA‐MB231) basal cell lines, with fibroblasts isolated from breast benign‐disease adjacent tissues (NAF) or with carcinoma‐associated fibroblasts (CAF), in a transwell system. Gene expression profiles of each coculture pair were compared with the correspondent monocultures, using a customized microarray. Contrariwise to large alterations in epithelial cells genomic profiles, fibroblasts were less affected. In MDA‐MB231 highly represented genes downregulated by CAF derived factors coded for proteins important for the specificity of vectorial transport between ER and golgi, possibly affecting cell polarity whereas the response of MCF10A comprised an induction of genes coding for stress responsive proteins, representing a prosurvival effect. While NAF downregulated genes encoding proteins associated to glycolipid and fatty acid biosynthesis in MDA‐MB231, potentially affecting membrane biogenesis, in MCF10A, genes critical for growth control and adhesion were altered. NAFs responded to coculture with MDA‐MB231 by a decrease in the expression of genes induced by TGFβ1 and associated to motility. However, there was little change in NAFs gene expression profile influenced by MCF10A. CAFs responded to the presence of both epithelial cells inducing genes implicated in cell proliferation. Our data indicate that interactions between breast fibroblasts and basal epithelial cells resulted in alterations in the genomic profiles of both cell types which may help to clarify some aspects of this heterotypic signaling.

Comprehensive Analysis of BRCA1, BRCA2 and TP53 Germline Mutation and Tumor Characterization: A Portrait of Early-Onset Breast Cancer in Brazil

Germline mutations in BRCA1, BRCA2 and TP53 genes have been identified as one of the most important disease-causing issues in young breast cancer patients worldwide. The specific defective biological processes that trigger germline mutation-associated and -negative tumors remain unclear. To delineate an initial portrait of Brazilian early-onset breast cancer, we performed an investigation combining both germline and tumor analysis. Germline screening of the BRCA1, BRCA2, CHEK2 (c.1100delC) and TP53 genes was performed in 54 unrelated patients <35 y; their tumors were investigated with respect to transcriptional and genomic profiles as well as hormonal receptors and HER2 expression/amplification. Germline mutations were detected in 12 out of 54 patients (22%) [7 in BRCA1 (13%), 4 in BRCA2 (7%) and one in TP53 (2%) gene]. A cancer familial history was present in 31.4% of the unrelated patients, from them 43.7% were carriers for germline mutation (37.5% in BRCA1 and in 6.2% in the BRCA2 genes). Fifty percent of the unrelated patients with hormone receptor-negative tumors carried BRCA1 mutations, percentage increasing to 83% in cases with familial history of cancer. Over-representation of DNA damage-, cellular and cell cycle-related processes was detected in the up-regulated genes of BRCA1/2-associated tumors, whereas cell and embryo development-related processes were over-represented in the up-regulated genes of BRCA1/2-negative tumors, suggesting distinct mechanisms driving the tumorigenesis. An initial portrait of the early-onset breast cancer patients in Brazil was generated pointing out that hormone receptor-negative tumors and positive familial history are two major risk factors for detection of a BRCA1 germline mutation. Additionally, the data revealed molecular factors that potentially trigger the tumor development in young patients.

Amyloid-β Oligomers Induce Differential Gene Expression in Adult Human Brain Slices

Background: Soluble Aβ oligomers (AβOs) have been increasingly proposed as the cause of synapse failure and cognitive dysfunction in Alzheimer disease. Results: Sublethal AβO concentrations induce changes in gene expression in adult human brain slices. Conclusion: AβOs impact transcription in important neuronal pathways preceding neurodegeneration. Significance: Results establish early mechanisms involved in AβO-triggered neuronal dysfunction in a novel human-derived experimental model. Cognitive decline in Alzheimer disease (AD) is increasingly attributed to the neuronal impact of soluble oligomers of the amyloid-β peptide (AβOs). Current knowledge on the molecular and cellular mechanisms underlying the toxicity of AβOs stems largely from rodent-derived cell/tissue culture experiments or from transgenic models of AD, which do not necessarily recapitulate the complexity of the human disease. Here, we used DNA microarray and RT-PCR to investigate changes in transcription in adult human cortical slices exposed to sublethal doses of AβOs. The results revealed a set of 27 genes that showed consistent differential expression upon exposure of slices from three different donors to AβOs. Functional classification of differentially expressed genes revealed that AβOs impact pathways important for neuronal physiology and known to be dysregulated in AD, including vesicle trafficking, cell adhesion, actin cytoskeleton dynamics, and insulin signaling. Most genes (70%) were down-regulated by AβO treatment, suggesting a predominantly inhibitory effect on the corresponding pathways. Significantly, AβOs induced down-regulation of synaptophysin, a presynaptic vesicle membrane protein, suggesting a mechanism by which oligomers cause synapse failure. The results provide insight into early mechanisms of pathogenesis of AD and suggest that the neuronal pathways affected by AβOs may be targets for the development of novel diagnostic or therapeutic approaches.

Biobanking Practice: RNA Storage at Low Concentration Affects Integrity

A critical issue in defining protocols for biobanking practices is the preservation of total RNA for assessing the whole transcriptome and ensuring that it can be utilized in clinically oriented studies. Storage conditions, such as temperature and the length of time that tissues and purified RNA stay frozen, may directly impact RNA preservation. In this study, we evaluated a) the quality of RNA (as measured by RNA Integrity Number) purified from head and neck tumor tissues stored at -140°C for distinct time intervals of up to 7 years, and b) the quality of their respective RNAs stored for 4 years at -80°C when diluted at either 250 ng/μL or 25 ng/μL, with repeated freezing and thawing. Additionally, we generated a profile of the RNA collection of human tumors from different body sites stored at the AC Camargo Biobank. Our results showed no significant change in RIN values according to length of storage at -140°C. With respect to RNA aliquots stored at -80°C, RNA integrity at 250 ng/μL was preserved, while statistically significant degradation was observed at 25 ng/μL after only 8 months of storage. The RNA collection from most of the human tumors stored at the AC Camargo Biobank exhibited high quality, with average RIN around seven. However, ovary and stomach samples had the greatest RNA degradation. Taken together, the results show that both the temperature of preservation and the concentration of RNA should be strictly controlled by the biobank staff involved in macromolecule purification. Moreover, the RNAs from our biobank can be useful for the most demanding methods of gene expression analysis by virtue of adherence to optimal standard operating procedures for both tissue and macromolecule laboratories.

Molecular profiling of isolated histological components of Wilms tumor implicates a common role for the Wnt signaling pathway in kidney and tumor development

Wilms tumor (WT), a tumor composed of three histological components – blastema (BL), epithelia and stroma – is considered an appropriate model system to study the biological relationship between differentiation and tumorigenesis. To investigate molecular associations between nephrogenesis and WT, the gene expression pattern of individual cellular components was analyzed, using a customized platform containing 4,608 genes. WT gene expression patterns were compared to genes regulated during kidney differentiation. BL had a closer gene expression pattern to the earliest stage of normal renal development. The BL gene expression pattern was compared to that of fetal kidney (FK) and also between FK and mature kidney, identifying 25 common deregulated genes supposedly involved in the earliest events of WT onset. Quantitative RT-PCR was performed, confirming the difference in expression levels for 13 of 16 genes (81.2%) in the initial set and 8 of 13 (61.5%) in an independent set of samples. An overrepresentation of genes belonging to the Wnt signaling pathway was identified, namely PLCG2, ROCK2 and adenomatous polyposis coli (APC). Activation of the Wnt pathway was confirmed in WT, using APC at protein level and PLCG2 at mRNA and protein level. APC showed positive nuclear immunostaining for an independent set of WT samples, similarly to the FK in week 11. Lack of PLCG2 expression was confirmed in WT and in FK until week 18. Taken together, these results provided molecular evidence of the recapitulation of the embryonic kidney by WT as well as involvement of the Wnt pathway in the earliest events of WT onset.

The Value of a Tumor Bank in the Development of Cancer Research in Brazil: 13 Years of Experience at the A C Camargo Hospital

This article discusses the importance of biobanking to health research advancement in developing countries by analyzing the impact of the establishment of a tumor bank at the A C Camargo Hospital, a cancer care and research center located in Sao Paulo, Brazil. For the past 13 years, the human biological samples provided by the tumor bank have been used by investigators to study various types of cancer. We analyze the impact of biobanking in the overall quality of research projects performed at our institution. We also summarize the main findings of these investigations focusing on breast, prostate, head-neck, and gastroesophageal tumors, as well as the lessons learned over these years. We conclude that biobanking should be part of the strategy employed by scientists and research institutions dedicated to the study of human diseases.

Tissue alkalosis in cold-ischemia time

The control of pre-analytical-factors in human biospecimens collected for health research is currently required. Only two previous reports using post-mortem brain samples have tried to address the impact of cold-ischemia on tissue pH. Here we report pH variations according to time (third-order polynomial model) in mice for liver, kidney and lung samples. Tissue alkalosis in cold-ischemia time may be an underlying mechanism of gene expression changes. Therefore, tissue-pH regulation after organ removal may minimize biological stress in human tissue samples.

Abstract A32: Urine as a potential liquid biopsy for detecting tumor DNA in Wilms tumor patient: Detection of somatic mutations in urine opens perspectives of monitoring chemotherapy response in WT patients

Detection of tumor DNA in urine has been shown as viable method of diagnosis not only for urinary tract (e.g., kidney and bladder) cancers but also for other types, e.g. prostate. Applications of such method, resemble those which use plasma DNA and include cancer detection, monitoring of tumor growth or recurrence and response to chemotherapy or radiation therapy. As far as we know, there is a lack of studies applying urine DNA detection in Wilms tumor (WT), an embryonary kidney cancer type. Here we show evidences of detection for two somatic variants in the urine DNA of one WT patient. By using NGS exome sequencing of tumor tissue and leukocytes samples of the same patient we were able to find new somatic variants: a frame-shift indel in TNRC18 and a misssense SNV in INTS1 gene. Target sequencing applied to the DNA from the patient9s urine revealed the presence of these two somatic variants. More interestingly, both variants could not be found in the urine DNA of this patient after treatment (chemotherapy and nephrectomy). Additionally, these genes are poorly characterized in WT contributing for the comprehension of the cellular processes that are operating in tumorigenesis of WT. Altogether, our findings contribute with the mutational repertoire of WT and reveals the potential of using urine DNA sequencing as a noninvasive cancer screening approach. Citation Format: Ana C. K. Miguez, Rodrigo F. Ramalho, Elisa N. Ferreira, Bruna D. F. Barros, Claudia A. A. de Paula, Renan Valieris, Louise D. C. Mota, Jorge E. Souza, Isabela W. Cunha, Cecilia L. Costa, Sandro J. de Souza, Dirce M. Carraro. Urine as a potential liquid biopsy for detecting tumor DNA in Wilms tumor patient: Detection of somatic mutations in urine opens perspectives of monitoring chemotherapy response in WT patients. [abstract]. In: Proceedings of the AACR Special Conference on Advances in Pediatric Cancer Research: From Mechanisms and Models to Treatment and Survivorship; 2015 Nov 9-12; Fort Lauderdale, FL. Philadelphia (PA): AACR; Cancer Res 2016;76(5 Suppl):Abstract nr A32.