Predictive Outcomes for HER2-enriched Cancer Using Growth and Metastasis Signatures Driven By SPARC

Guttlein Leandro N.; Benedetti Lorena G.; Fresno Cristobal; Spallanzani Raul G.; Mansilla Sabrina F.; Rotondaro Cecilia; Raffo Iraolagoitia Ximena L.; Salvatierra Edgardo; Bravo Alicia I.; Fernandez Elmer A.; Gottifredi Vanesa; Zwirner Norberto W.; Llera Andrea S.; Podhajcer Osvaldo L.

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Predictive Outcomes for HER2-enriched Cancer Using Growth and Metastasis Signatures Driven By SPARC

机译：使用SPARC驱动的生长和转移签名预测癌症的预测结果

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Understanding the mechanism of metastatic dissemination is crucial for the rational design of novel therapeutics. The secreted protein acidic and rich in cysteine (SPARC) is a matricellular glycoprotein which has been extensively associated with human breast cancer aggressiveness although the underlying mechanisms are still unclear. Here, shRNA-mediated SPARC knockdown greatly reduced primary tumor growth and completely abolished lung colonization of murine 4T1 and LM3 breast malignant cells implanted in syngeneic BALB/c mice. A comprehensive study including global transcriptomic analysis followed by biological validations confirmed that SPARC induces primary tumor growth by enhancing cell cycle and by promoting a COX-2-mediated expansion of myeloid-derived suppressor cells (MDSC). The role of SPARC in metastasis involved a COX-2-independent enhancement of cell disengagement from the primary tumor and adherence to the lungs that fostered metastasis implantation. Interestingly, SPARC-driven gene expression signatures obtained from these murine models predicted the clinical outcome of patients with HER2-enriched breast cancer subtypes. In total, the results reveal that SPARC and its downstream effectors are attractive targets for antimetastatic therapies in breast cancer.

机译：了解转移传播机制对于新型治疗剂的合理设计至关重要。分泌的蛋白质酸性和富含半胱氨酸（SPARC）的是一种原型糖蛋白，但由于潜在的机制仍然不清楚，因此具有与人乳腺癌侵略性的广泛相关。在这里，ShRNA介导的SPARC敲低大大降低了原发性肿瘤生长，并且完全废除了鼠4T1和LM3乳腺恶性细胞的肺部定植，植入了同工组织小鼠。一种综合研究，包括全局转录组分析，然后通过生物学验证证实，SPARC通过增强细胞周期并通过促进髓鞘衍生的抑制细胞（MDSC）的COX-2介导的膨胀来诱导原发性肿瘤生长。 SPARC在转移中的作用涉及与原发性肿瘤的COX-2无关增强细胞脱离，并依赖于培养转移植入的肺部。有趣的是，从这些鼠模型获得的SPARC驱动的基因表达签名预测了富含Her2富含乳腺癌亚型患者的临床结果。总共有结果表明，SPARC及其下游效果是乳腺癌中抗致抗体疗法的吸引力。

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《Molecular cancer research: MCR》 |2017年第3期|共13页
作者
Guttlein Leandro N.; Benedetti Lorena G.; Fresno Cristobal; Spallanzani Raul G.; Mansilla Sabrina F.; Rotondaro Cecilia; Raffo Iraolagoitia Ximena L.; Salvatierra Edgardo; Bravo Alicia I.; Fernandez Elmer A.; Gottifredi Vanesa; Zwirner Norberto W.; Llera Andrea S.; Podhajcer Osvaldo L.;
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作者单位

Consejo Nacl Invest Cient &

Tecn Fdn Inst Leloir Lab Terapia Mol &

Celular IIBBA Buenos Aires;

Consejo Nacl Invest Cient &

Tecn Fdn Inst Leloir Lab Terapia Mol &

Celular IIBBA Buenos Aires;

Univ Catolica Cordoba Unidad Asociada Area Cs Agr Ingn Cs Biol &

Salud CONICET Cordoba;

Consejo Nacl Invest Cient &

Tecn Inst Biol &

Med Expt Lab Fisiopatol Inmunidad Innata Buenos;

Consejo Nacl Invest Cient &

Tecn Fdn Inst Leloir Lab Ciclo Celular &

Estabilidad Genom IIBBA;

Consejo Nacl Invest Cient &

Tecn Fdn Inst Leloir Lab Terapia Mol &

Celular IIBBA Buenos Aires;

Consejo Nacl Invest Cient &

Tecn Inst Biol &

Med Expt Lab Fisiopatol Inmunidad Innata Buenos;

Consejo Nacl Invest Cient &

Tecn Fdn Inst Leloir Lab Terapia Mol &

Celular IIBBA Buenos Aires;

Hosp Interzonal Gen Agudos Eva Peron Unidad Inmunopatol San Martin Provincia De Bu Argentina;

Univ Catolica Cordoba Unidad Asociada Area Cs Agr Ingn Cs Biol &

Salud CONICET Cordoba;

Consejo Nacl Invest Cient &

Tecn Fdn Inst Leloir Lab Ciclo Celular &

Estabilidad Genom IIBBA;

Consejo Nacl Invest Cient &

Tecn Inst Biol &

Med Expt Lab Fisiopatol Inmunidad Innata Buenos;

Consejo Nacl Invest Cient &

Tecn Fdn Inst Leloir Lab Terapia Mol &

Celular IIBBA Buenos Aires;

Consejo Nacl Invest Cient &

Tecn Fdn Inst Leloir Lab Terapia Mol &

Celular IIBBA Buenos Aires;

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正文语种 eng
中图分类肿瘤学;
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专利

1. Predictive Outcomes for HER2-enriched Cancer Using Growth and Metastasis Signatures Driven By SPARC [J] . Guttlein Leandro N., Benedetti Lorena G., Fresno Cristobal, Molecular cancer research: MCR . 2017,第3期

机译：使用SPARC驱动的生长和转移签名预测癌症的预测结果
2. FOXO3a-driven miRNA signatures suppresses VEGF-A/NRP1 signaling and breast cancer metastasis [J] . Ying Song, Shanshan Zeng, Guopei Zheng, Oncogene . 2021,第4期

机译：FOXO3A驱动的miRNA签名抑制VEGF-A / NRP1信号传导和乳腺癌转移
3. Histology-Driven Data Mining of Lipid Signatures from Multiple Imaging Mass Spectrometry Analyses: Application to Human Colorectal Cancer Liver Metastasis Biopsies [J] . Aurelien Thomas, Nathan Heath Patterson, Martin M. Marcinkiewicz, Analytical chemistry . 2013,第5期

机译：组织学驱动的多重成像质谱分析脂质签名的数据挖掘：在人类大肠癌肝转移活检中的应用
4. Molecular Signatures of Estrogen Receptor-Associated Genes in Breast Cancer Predict Clinical Outcome [C] . James L. Wittliff, TYaci L. Kruer, Sarah A. Andres, International Symposium on Hormonal Carcinogenesis . 2008

机译：乳腺癌中雌激素受体相关基因的分子鉴定预测临床结果
5. Identifying genomic signatures for predicting breast cancer outcomes. [D] . Rathnagiriswaran, Shruti. 2008

机译：识别基因组特征以预测乳腺癌的预后。
6. Correction: Transforming growth factor β-induced epithelial-to-mesenchymal signature predicts metastasis-free survival in non-small cell lung cancer [O] . Edna Gordian, Eric A. Welsh, Nicholas Gimbrone, 2021

机译：校正：转化生长因子β-诱导的上皮 - 间充质签名预测非小细胞肺癌中的无转移存活
7. Predictive Outcomes for HER2-enriched Cancer Using Growth and Metastasis Signatures Driven By SPARC [O] . Leandro N. Güttlein, Lorena G. Benedetti, Cristóbal Fresno, 2016

机译：使用SPARC驱动的生长和转移签名来预测HER2-富集癌症的预测结果

Predictive Outcomes for HER2-enriched Cancer Using Growth and Metastasis Signatures Driven By SPARC

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