Publications by authors named "M Papanicolaou"
Article Synopsis
- Breast disseminated cancer cells (DCCs) can stay inactive in the lungs for a long time, but the reasons for this dormancy are not fully understood.
- Research shows that alveolar macrophages in lung tissue help keep these cancer cells dormant by using a signaling molecule called TGF-β2.
- When macrophages are depleted or the cancer cells lose their ability to respond to TGF-β2, this can reactivate the cancer cells, allowing them to grow and metastasize.
Pancreatic ductal adenocarcinoma (PDAC) is characterized by increasing fibrosis, which can enhance tumor progression and spread. Here, we undertook an unbiased temporal assessment of the matrisome of the highly metastatic KPC (, , ) and poorly metastatic KPC (, , ) genetically engineered mouse models of pancreatic cancer using mass spectrometry proteomics. Our assessment at early-, mid-, and late-stage disease reveals an increased abundance of nidogen-2 (NID2) in the KPC model compared to KPC, with further validation showing that NID2 is primarily expressed by cancer-associated fibroblasts (CAFs).
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- Breast cancer is a major global health issue, often leading to death due to metastatic disease, which can remain dormant for long periods before becoming active again.
- Recent research shows that infections like influenza can trigger inflammatory responses that promote the growth of dormant breast cancer cells, leading to rapid cancer cell expansion in the lungs.
- The study also highlights the role of immune cells in maintaining metastatic cancer after infection, and finds that cancer survivors who contract viruses like SARS-CoV-2 are at a significantly higher risk of cancer progression and death.
In recent decades, the role of tumor biomechanics on cancer cell behavior at the primary site has been increasingly appreciated. However, the effect of primary tumor biomechanics on the latter stages of the metastatic cascade, such as metastatic seeding of secondary sites and outgrowth remains underappreciated. This work sought to address this in the context of triple negative breast cancer (TNBC), a cancer type known to aggressively disseminate at all stages of disease progression.
View Article and Find Full Text PDFThe lysyl oxidase family represents a promising target in stromal targeting of solid tumors due to the importance of this family in crosslinking and stabilizing fibrillar collagens and its known role in tumor desmoplasia. Using small-molecule drug-design approaches, we generated and validated PXS-5505, a first-in-class highly selective and potent pan-lysyl oxidase inhibitor. We demonstrate in vitro and in vivo that pan-lysyl oxidase inhibition decreases chemotherapy-induced pancreatic tumor desmoplasia and stiffness, reduces cancer cell invasion and metastasis, improves tumor perfusion and enhances the efficacy of chemotherapy in the autochthonous genetically engineered KPC model, while also demonstrating antifibrotic effects in human patient-derived xenograft models of pancreatic cancer.
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