Análise de marcadores sanguíneos em pacientes com osteossarcoma, sarcomas de partes moles e tumor desmóide / Analysis of blood markers in patients with soft tissue sarcoma and desmoid tumor

Introdução: O tumor desmoide (TD) é uma neoplasia rara com altas taxas de recorrência local, composto por células fibroblásticas que se caracterizam pela expressão de moléculas-chave, incluindo o filamento intermediário vimentina, ciclooxigenase-2 (COX-2) e ß-catenina nuclear. Células tumorais circulantes (CTCs) isoladas do sangue periférico de pacientes com sarcomas e outras neoplasias podem ser utilizadas como biomarcadores precoces de invasão e disseminação tumoral. A família dos Receptores do Fator de Crescimento Epidérmico (Epidermal Growth Factor Receptor, EGFR) também podem influenciar no processo de invasão das CTCs, na formação de metástases e na recolonização de seus tumores de origem por meio de um processo de "auto-semeadura do tumor". Objetivo: Nosso objetivo foi identificar CTCs no sangue periférico de pacientes com TD ou sarcomas e avaliar a expressão das proteínas ß-catenina, TGF-ßRI (do Inglês, Transforming Growth Factor-ß Receptor I), COX-2 (Cyclooxygenase2), vimentina, GLUT-1 (Glucose Transporter 1), LGR5 (G-Protein Coupled Receptor 5) e EGFR, e sua correlação com sobrevidas global (SG) e livre de progressão (SLP). Materiais e Métodos: Foi realizado um estudo prospectivo de pacientes com diagnóstico inicial ou TD recidivado com doença mensurável. Para sarcomas, utilizamos amostras coletadas de forma prospectiva e retrospectiva. As amostras de sangue de cada paciente foram processadas e filtradas pelo ISET® (Rarecells, França) para isolamento e quantificação de CTCs. A expressão das proteínas foi analisada por imunocitoquímica (ICC). Para análise molecular das CTCs provenientes de pacientes com TD foi padronizado o método de PCR digital. Resultados: Foram incluídos 18 pacientes com TD, todos com CTCs detectáveis, com níveis que variaram entre 0,5­13 CTCs/mL. Encontramos uma concordância da expressão de ß-catenina em CTCs e tumores primários de 42,8% (6/14) dos casos usando ICC e imunohistoquímica, respectivamente. Nos nossos testes prévios de PCR digital, encontramos cópias mutadas de S45Pro em 4 pacientes (40%) e de S45Phe em apenas um paciente (10%). Em contraste, não foram encontradas mutações Th41Ala. Nas amostras de sarcomas, analisamos 30 amostras e encontramos CTCs em 93% dos pacientes e os níveis variaram de 0-11,25 CTCs/mL. Observamos também que a SG dos pacientes positivos para EGFR (p=0,027) eram inferiores às sobrevidas dos pacientes negativos para as mesmas proteínas. Conclusões: Nosso estudo identificou alta prevalência de CTCs em pacientes com TD e sarcomas. A concordânciada expressão de ß-catenina entre tumor primário e CTCs traz novas perspectivas para avaliar a dinâmica das CTCs no compartimento sanguíneo, abrindo novos caminhos para o estudo da biologia e comportamento do TD. Este é o primeiro estudo a demonstrar a expressão da proteína LGR5 em CTCs de pacientes com diferentes tipos de sarcomas, o que pode abrir novas oportunidades para futuras investigações. O próximo passo é caracterizar CTCs em uma coorte maior de pacientes para entender melhor o papel do LGR5 e das demais proteínas no processo de metástases tumorais em sarcomas. Além disso, esses resultados abrem a possibilidade de usar CTCs para prever a dinâmica do TD no momento da progressão da doença e tratamento. Mais estudos com tamanhos de amostra maiores são necessários para validar nossos achados tanto em TD como em sarcomas

Introduction: Desmoid tumor (DT) is a rare neoplasm with high rates of local recurrence, composed of fibroblast cells that are characterized by the expression of key molecules, including the intermediate filament vimentin, cyclooxygenase-2 (COX-2) and ß-catenin. Circulating tumor cells (CTCs) isolated from the peripheral blood of patients with sarcomas and other neoplasms can be used as early biomarkers of tumor invasion and dissemination. The Epidermal Growth Factor Receptor (EGFR) family can also influence the process of CTC invasion, metastasis formation and recolonization of their tumors of origin through a process of "tumor selfseeding". Objective: Our objective was to identify CTCs in the peripheral blood of patients with TD or sarcomas and to evaluate the expression of ßcatenin proteins, transforming growth factor receptor beta I (TGF-ßRI), COX-2 (cyclooxygenase-2), vimentin, GLUT-1 (Glucose transporter 1), LGR5 (Gprotein coupled receptor 5) and EGFR and their relation with progression free (PFS) and overall suvival (OS). Methods: We performed a prospective study of patients with initial diagnosis or relapsed TD with measurable disease. For sarcomas, we used samples collected prospectively and retrospectively. Blood samples from each patient were processed and filtered by ISET® (Rarecells, France) for isolation and quantification of CTCs. Protein expression was analyzed by immunocytochemistry (ICC). For the molecular analysis of CTCs from patients with TD, the digital PCR method was standardized. Results: Eighteen TD patients were included, all with detectable CTCs, with levels ranging from 0.5­13 CTCs/mL. We found a concordance ofß-catenin expression in CTCs and primary tumors of 42.8% (6/14) of cases using ICC and immunohistochemistry, respectively. In our previous digital PCR tests, we found mutated copies of S45Pro in 4 patients (40%) and of S45Phe in only one patient (10%). In contrast, no Th41Ala mutations were found. In the sarcoma samples, we analyzed 30 samples and found CTCs in 93% of the patients and the levels ranged from 0-11.25 CTCs/mL. We also observed that the OS of EGFR positive patients (p=0.027) were lower than the survival of negative patients for the same proteins. Conclusions: Our study identified a high prevalence of CTCs in patients with TD and sarcomas. The agreement of ß-catenin expression between primary tumor and CTCs brings new perspectives to evaluate the dynamics of CTCs in the blood compartment, opening newavenues for the study of the biology and behavior of TD. This is the first study to demonstrate the expression of LGR5 protein in CTCs from patients with different types of sarcomas, which may open new opportunities for future investigations. The next step is to characterize CTCs in a larger cohort of patients to better understand the role of LGR5 and other proteins in the process of tumor metastases in sarcomas. Furthermore, these results open up the possibility of using CTCs to predict the dynamics of TD at the time of disease progression and treatment. More studies with larger sample sizes areneeded to validate our findings in both TD and sarcomas

Proteínas mir-203a-3p e mmp-2 são altamente expressas em células tumorais circulantes de pacientes com carcinoma pancreático / Mir-203a-3p and mmp-2 proteins are highly expressed in circulating tumor cells from patients with pancreatic carcinoma

RESUMO -RACIONAL: O adenocarcinoma ductal do pâncreas é a quarta causa de morte associada ao câncer mais comum no mundo ocidental. A presença de células tumorais circulantes (CTCs) pode ser considerada um potencial fator prognóstico, visto que essas células representam a progressão tumoral, permitindo o monitoramento da eficácia terapêutica. OBJETIVOS: explorar as características morfológicas, moleculares e fenotípicas das células tumorais circulantes (CTCs) do sangue de pacientes com carcinoma pancreático e correlacionar os achados com a resposta ao tratamento, sobrevida livre de progressão, sobrevida global (SG) e trombose venosa profunda (TVP). MÉTODOS: o sangue periférico (10mL) foi analisado antes do início do tratamento e após 60 e 120 dias. As CTCs foram detectadas pelo ISET® e caracterizadas por imunocitoquímica. Para análise de miRNAs, leucócitos periféricos dos mesmos pacientes e indivíduos saudáveis foram coletados em paralelo no início do estudo. A expressão de miRNAs foi avaliada usando TaqMan T Array Human MicroRNA Cards v2.0. RESULTADOS: foram incluídos 9 pacientes. As proteínas MMP2 e TGFß-RI foram altamente expressas (77,7%) nas CTCs no início do estudo. No primeiro acompanhamento, MMP2 era predominante (80%) e no segundo acompanhamento, MMP2 e vimentina eram predominantes (50%). Microêmbolos tumorais circulantes (MTC) foram encontrados em dois pacientes e ambos apresentavam TVP. O miR-203a-3p foi altamente expresso em CTCs. miR-203a-3p está envolvido na estimulação da transição epitelio-mesenquima (TEM) e relacionado a pior SG no câncer pancreático (dados TCGA). CONCLUSÃO: Devido ao baixo número de pacientes e curto seguimento, não observamos correlação entre CTCs e resposta ao tratamento. No entanto, houve uma correlação entre MTC e TVP. Além disso, miR-203a-3p foi altamente expresso em CTCs, corroborando os achados de proteínas EMT. Este estudo abre perspectivas sobre a mudança dinâmica no padrão de proteínas expressas ao longo do tratamento e a utilização de miRNAs como novos alvos no carcinoma pancreático.

ABSTRACT - BACKGROUND: Ductal adenocarcinoma of the pancreas is the fourth most common cancer-associated cause of death in the Western world. The presence of circulating tumor cells (CTCs) can be considered a potential prognostic factor, as these cells represent tumor progression, allowing monitoring of therapeutic efficacy. OBJECTIVES: The objectives of this study were to explore the morphological, molecular, and phenotypic characteristics of CTCs from the blood of patients with pancreatic carcinoma and to correlate the findings with response to treatment, progression-free survival, overall survival (OS), and deep vein thrombosis (DVT). METHODS: Peripheral blood (10 mL) was analyzed before the beginning of treatment after 60 and 120 days. CTCs were detected by using ISET® and characterized by immunocytochemistry. For microRNAs (miRNAs) analysis, peripheral leukocytes from the same patients and healthy individuals (controls) were collected in parallel at baseline. The expression of miRNAs was evaluated (in pool) using TaqMan® Array Human MicroRNA Cards v2.0. RESULTS: Only nine patients were included. The proteins, namely, matrix metalloproteinase-2 (MMP2) and TGFβ-RI, were highly expressed (77.7%) in CTCs at baseline; at the first follow-up, MMP2 was predominant (80%) and, at the second follow-up, MMP2 and vimentin were predominant (50%). Circulating tumor microemboli (CTMs) were found in two patients and both presented DVT. The miR-203a-3p was highly expressed in CTCs. The miR-203a-3p is involved in the stimulation of epithelial-to-mesenchymal transition (EMT) and is related to worse OS in pancreatic cancer (TCGA data). CONCLUSION: Due to the low number of patients and short follow-up, we did not observe a correlation between CTCs and response to treatment. However, there was a correlation between CTM and DVT and also miR-203a-3p was highly expressed in CTCs, corroborating the findings of EMT proteins. This study opens the perspectives concerning the dynamic change in the pattern of proteins expressed along with treatment and the use of miRNAs as new targets in pancreatic carcinoma.

Comparison of hormonal receptor expression and HER2 status between circulating tumor cells and breast cancer metastases

OBJECTIVES: Breast cancer (BC) is the most common neoplasm in women. Biopsy of metastatic lesions is recommended to confirm estrogen receptor (ER), progesterone receptor (PR), and human epidermal growth factor receptor 2 (HER2) status as there are discrepancies in these patterns between primary tumors and metastases in up to 40% of the cases. Circulating tumor cells (CTCs) are related to BC outcomes and could potentially be an alternative to the invasive procedures of metastasis rebiopsy. ISET® technology is not currently employed to detect CTCs in patients with BC. Emerging data support that the characterization of CTC protein expression can refine its prognostic value. Transforming growth factor (TGF)-β plays a role in BC progression and invasiveness. Thus, in this study, we aimed to compare ER, PR, and HER2 expression in primary tumors, CTCs, and metastases and evaluate TGF-β type 1 receptor (TGF-β RI) expression in CTCs as prognostic factor for progression free survival (PFS) and overall survival (OS). METHODS: This prospective study was conducted at the A.C. Camargo Cancer Center, Brazil. Blood samples were processed in ISET® (Isolation by SizE of Tumors, Rarecells, France) before computed tomography-guided biopsy of suspected metastatic lesions. Protein expression levels in CTCs were compared to those in primary tumors/metastases (medical records). RESULTS: Of the 39 patients initially included, 27 underwent both biopsies of metastases and blood collection and were considered for analysis. The concordance rates for ER, PR, and HER2 expression between primary tumors and metastases were high. No loss of HER2 expression at any metastasis site and retention of the same pattern of protein expression in all triple-negative (TN) tumors (92.5%, 81.5% and 96.2% respectively) (p<0.0001) was observed. When metastases/CTCs were classified as TN/non-TN, CTCs showed high specificity (93%), accuracy (84.2%), and negative predictive value (88%). The median OS of patients without TGF-β RI expression in CTCs was 42.6 versus 20.8 months for TGF-β RI expression-positive ones (p>0.05). CONCLUSION: The role of CTCs detected by ISET has not yet been established in BC. Here, we suggest that this methodology may be useful to evaluate metastasis in non-TN cases as well as TGF-β RI expression in CTCs, which may impact patient survival. Due to sample limitations, future studies must focus on specific BC subtypes and an expansion of the cohort.