Pentraxin 3: A Main Driver of Inflammation and Immune System Dysfunction in the Tumor Microenvironment of Glioblastoma.
Sarah Adriana ScuderiArdizzone AAyomide Eniola SalakoGiuseppe PantòFabiola De LucaEmanuela EspositoAnna Paola CapraPublished in: Cancers (2024)
Brain tumors are a heterogeneous group of brain neoplasms that are highly prevalent in individuals of all ages worldwide. Within this pathological framework, the most prevalent and aggressive type of primary brain tumor is glioblastoma (GB), a subtype of glioma that falls within the IV-grade astrocytoma group. The death rate for patients with GB remains high, occurring within a few months after diagnosis, even with the gold-standard therapies now available, such as surgery, radiation, or a pharmaceutical approach with Temozolomide. For this reason, it is crucial to continue looking for cutting-edge therapeutic options to raise patients' survival chances. Pentraxin 3 (PTX3) is a multifunctional protein that has a variety of regulatory roles in inflammatory processes related to extracellular matrix (ECM). An increase in PTX3 blood levels is considered a trustworthy factor associated with the beginning of inflammation. Moreover, scientific evidence suggested that PTX3 is a sensitive and earlier inflammation-related marker compared to the short pentraxin C-reactive protein (CRP). In several tumoral subtypes, via regulating complement-dependent and macrophage-associated tumor-promoting inflammation, it has been demonstrated that PTX3 may function as a promoter of cancer metastasis, invasion, and stemness. Our review aims to deeply evaluate the function of PTX3 in the pathological context of GB, considering its pivotal biological activities and its possible role as a molecular target for future therapies.
Keyphrases
- oxidative stress
- extracellular matrix
- end stage renal disease
- newly diagnosed
- stem cells
- transcription factor
- minimally invasive
- chronic kidney disease
- gene expression
- papillary thyroid
- peritoneal dialysis
- epithelial mesenchymal transition
- drug delivery
- acute coronary syndrome
- squamous cell carcinoma
- white matter
- atrial fibrillation
- amino acid
- small molecule
- radiation induced
- coronary artery disease
- radiation therapy
- binding protein
- functional connectivity
- blood brain barrier
- patient reported
- protein protein
- childhood cancer