Increased VEGF levels in a case of papillary tumor of the pineal region with intracranial hemorrhage: a potential surrogate indicator of tumor angiogenesis and aggressiveness?

Pineal tumors are rare, about 1% of all intracranial tumors. At variance with pineocytomas, usually characterized by a good prognosis, papillary tumors behave more aggressively. Owing to their rarity, little is known about their biology and clinical behavior, moreover conflicting data on prognosis have been reported. Here we present an unusual case of papillary neuroepithelial tumor of the pineal region in a 40-year-old man who was admitted in a state of unconsciousness due to the presence of intracranial hemorrhage. After 21 days from admission, he underwent third ventriculostomy for hydrocephalus and biopsy of the lesion. Since bleeding manifestations are uncommonly associated with this kind of tumors, we performed some additional non routine laboratory tests in order to identify biological indicators of disease course and abnormal angiogenesis. Coagulation screening tests were performed to rule out the presence of coagulopathy and vascular endothelial growth factor (VEGF ) levels were measured in plasma as marker of tumor angiogenic potential. Histologic evaluation confirmed the diagnosis of a papillary tumor of the pineal region with the presence of tiny vessel lumens that may account for increased angiogenesis Coagulation screening was normal and VEGF levels were extremely high if compared to healthy individuals. After 20 months of follow-up the tumor mass, radiotherapy treated, appeared dramatically reduced at MRI evaluation, and, interestingly, VEGF levels, although still higher than in healthy individuals, resulted significantly decreased as compared to those measured at time of first hospital admission suggesting a role for VEGF as indicator of tumor aggressiveness. In conclusion, measurement of angiogenesis circulating soluble markers could have an additional feedback in the diagnosis, therapy and monitoring the disease in patients with very rare CNS tumors as papillary tumors of pineal region that have non univocal clinical behavior and prognosis.

Autocrine/paracrine sphingosine-1-phosphate fuels proliferative and stemness qualities of glioblastoma stem cells.

Accumulating reports suggest that human glioblastoma contains glioma stem-like cells (GSCs) which act as key determinants driving tumor growth, angiogenesis, and contributing to therapeutic resistance. The proliferative signals involved in GSC proliferation and progression remain unclear. Using GSC lines derived from human glioblastoma specimens with different proliferative index and stemness marker expression, we assessed the hypothesis that sphingosine-1-phosphate (S1P) affects the proliferative and stemness properties of GSCs. The results of metabolic studies demonstrated that GSCs rapidly consume newly synthesized ceramide, and export S1P in the extracellular environment, both processes being enhanced in the cells exhibiting high proliferative index and stemness markers. Extracellular S1P levels reached nM concentrations in response to increased extracellular sphingosine. In addition, the presence of EGF and bFGF potentiated the constitutive capacity of GSCs to rapidly secrete newly synthesized S1P, suggesting that cooperation between S1P and these growth factors is of central importance in the maintenance and proliferation of GSCs. We also report for the first time that S1P is able to act as a proliferative and pro-stemness autocrine factor for GSCs, promoting both their cell cycle progression and stemness phenotypic profile. These results suggest for the first time that the GSC population is critically modulated by microenvironmental S1P, this bioactive lipid acting as an autocrine signal to maintain a pro-stemness environment and favoring GSC proliferation, survival and stem properties.