Temporal and spatial stability of the EM/PM molecular subtypes in adult diffuse glioma / 医学前沿

Detailed characterizations of genomic alterations have not identified subtype-specific vulnerabilities in adult gliomas. Mapping gliomas into developmental programs may uncover new vulnerabilities that are not strictly related to genomic alterations. After identifying conserved gene modules co-expressed with EGFR or PDGFRA (EM or PM), we recently proposed an EM/PM classification scheme for adult gliomas in a histological subtype- and grade-independent manner. By using cohorts of bulk samples, paired primary and recurrent samples, multi-region samples from the same glioma, single-cell RNA-seq samples, and clinical samples, we here demonstrate the temporal and spatial stability of the EM and PM subtypes. The EM and PM subtypes, which progress in a subtype-specific mode, are robustly maintained in paired longitudinal samples. Elevated activities of cell proliferation, genomic instability and microenvironment, rather than subtype switching, mark recurrent gliomas. Within individual gliomas, the EM/PM subtype was preserved across regions and single cells. Malignant cells in the EM and PM gliomas were correlated to neural stem cell and oligodendrocyte progenitor cell compartment, respectively. Thus, while genetic makeup may change during progression and/or within different tumor areas, adult gliomas evolve within a neurodevelopmental framework of the EM and PM molecular subtypes. The dysregulated developmental pathways embedded in these molecular subtypes may contain subtype-specific vulnerabilities.

Immunohistochemical analysis of retinoblastoma cell phenotype using neuronal and glial cell markers / Análise imuno-histoquímica do fenótipo de células de retinoblastoma utilizando marcadores de células neuronais e gliais

ABSTRACT Purpose: The cellular origin of retinoblastoma is uncertain as constituent tumor cells heterogeneously express markers of both immature and mature retinal cells. An immunohistochemical analysis of cellular origin may yield valuable insights into disease progression and treatment options. This study aimed to determine the cellular origin of retinoblastoma in a large case series and correlate these findings with histopathological prognostic factors. Methods: Thirty-nine retinoblastoma cases were histopathologically diagnosed and analyzed by immunohistochemistry using monoclonal antibodies against the immature neural cell marker SRY-box containing gene 2 (SOX-2), the mature neuronal cell marker microtubule-associated protein 2 (MAP2), and the mature glial cell marker glial fibrillary acidic protein (GFAP). Histopathological features were also evaluated, including patterns of growth, differentiation, vitreous seeding, and choroidal/scleral, optic nerve, and anterior chamber invasion. Two retinoblastoma cell lines, WERI-1 and Y79, were studied by immunocytochemistry using the same antibodies. Results: Expression of SOX-2 was strong in 97.4% of retinoblastoma cases, while MAP-2 was expressed in 59% of cases. Immunostaining for GFAP was positive only in reactive stromal astrocytes interspersed amongst tumor cells and in peritumoral tissue. There was no correlation between histopathological prognostic factors and immunohistochemical markers. Retinoblastoma cell lines showed strong positivity for SOX2 (90% of WERI-1 cells and 70% of Y79 cells) and MAP2 (90% of cells in both lines). GFAP was completely negative in both cell lines. Conclusion: The majority of retinoblastomas and both RB cell lines expressed an immature neural and/or a mature neuronal cell marker, but not a glial marker. These results indicate a typical neuroblast or neuronal origin and eliminate astrocyte differentiation from neural stem cells as the source of retinoblastoma.

RESUMO Objetivos: Este estudo visa determinar a origem do retinoblastoma em um número de casos e correlacionar essos achados com fatores prognósticos e histopatológicos conhecidos. Métodos: Trinta e nove casos de retinoblastoma foram diagnosticados e analisados com imuno-histoquímica usando marcadores de anticorpos monoclonais contra as células de retina imaturas (SOX-2: SRY-box containing gene 2), contra as células da retina maturas (MAP2: microtubule -associated protein 2) e contra as células gliais maturas (GFAP: glial fibrillar acidic protein). Foram avaliadas características microscópicas dos casos (grau de diferenciação, presença de semeadura vítrea, invasão de coroide/esclera, nervo óptico e câmara anterior). Duas linhas celulares de retinoblastoma (WERI-1 e Y79) também foram testadas, utilizando os três marcadores. Resultados: A expressão de SOX-2 foi positiva em 97,4% dos casos de retinoblastoma, enquanto MAP2 foi positivo em 59% dos casos. GFAP foi apenas positivo no estroma (astrócitos reativos). Não houve correlação entre preditores histopatológicos e marcadores imunohistoquímicos avaliados. As linhagens celulares mostraram positividade para SOX-2 (90% em WERI-1 e 70% das células Y79). Ambas as linhagens celulares se mostraram fortemente positivas con MAP2 (90%), enquanto não houve expressão de GFAP em nenhuma das linhas celulares estudadas. Conclusões: A maioria das células de retinoblastoma desta série de casos expressa marcadores de células retinianas imaturas, além de marcadores de células maduras. As linhas celulares Y79 e WERI-1 apresentaram imunomarcação para ambos os marcadores neurais em percentagens semelhantes a dos casos avaliados. Portanto, estes resultados confirmam a origem neural do tumor em particular. Alem disso, a ausência de células positivas para GFAP no tumor descarta diferenciação de astrócitos em retinoblastoma.

A cell junction pathology of neural stem cells leads to abnormal neurogenesis and hydrocephalus

Most cells of the developing mammalian brain derive from the ventricular (VZ) and the subventricular (SVZ) zones. The VZ is formed by the multipotent radial glia/neural stem cells (NSCs) while the SVZ harbors the rapidly proliferative neural precursor cells (NPCs). Evidence from human and animal models indicates that the common history of hydrocephalus and brain maldevelopment starts early in embryonic life with disruption of the VZ and SVZ. We propose that a "cell junction pathology" involving adherent and gap junctions is a final common outcome of a wide range of gene mutations resulting in proteins abnormally expressed by the VZ cells undergoing disruption. Disruption of the VZ during fetal development implies the loss of NSCs whereas VZ disruption during the perinatal period implies the loss of ependyma. The process of disruption occurs in specific regions of the ventricular system and at specific stages of brain development. This explains why only certain brain structures have an abnormal development, which in turn results in a specific neurological impairment of the newborn. Disruption of the VZ of the Sylvian aqueduct (SA) leads to aqueductal stenosis and hydrocephalus, while disruption of the VZ of telencephalon impairs neurogenesis. We are currently investigating whether grafting of NSCs/neurospheres from normal rats into the CSF of hydrocephalic mutants helps to diminish/repair the outcomes of VZ disruption.

Aberrant signaling pathways in medulloblastomas: a stem cell connection / Vias de sinalização aberrantes no meduloblastoma: uma conexão com célula-tronco

Medulloblastoma is a highly malignant primary tumor of the central nervous system. It represents the most frequent type of solid tumor and the leading cause of death related to cancer in early childhood. Current treatment includes surgery, chemotherapy and radiotherapy which may lead to severe cognitive impairment and secondary brain tumors. New perspectives for therapeutic development have emerged with the identification of stem-like cells displaying high tumorigenic potential and increased radio- and chemo-resistance in gliomas. Under the cancer stem cell hypothesis, transformation of neural stem cells and/or granular neuron progenitors of the cerebellum are though to be involved in medulloblastoma development. Dissecting the genetic and molecular alterations associated with this process should significantly impact both basic and applied cancer research. Based on cumulative evidences in the fields of genetics and molecular biology of medulloblastomas, we discuss the possible involvement of developmental signaling pathways as critical biochemical switches determining normal neurogenesis or tumorigenesis. From the clinical viewpoint, modulation of signaling pathways such as TGFβ, regulating neural stem cell proliferation and tumor development, might be attempted as an alternative strategy for future drug development aiming at more efficient therapies and improved clinical outcome of patients with pediatric brain cancers.

Meduloblastoma é um tumor maligno do sistema nervoso central (SNC). Na infância, representa o tumor sólido mais frequente e a principal causa de morte relacionada ao câncer. Tratamentos atuais incluem cirurgia, quimioterapia e radioterapia, que podem trazer prejuízos cognitivos e desenvolvimento de tumores secundários. Novas perspectivas terapêuticas surgem com a identificação de células-tronco em gliomas, as quais apresentam alto potencial tumorigênico e maior resistência à radioterapia e quimioterapia. A hipótese das células-tronco tumorais sugere que a transformação de células-tronco e/ou progenitores neurais do cerebelo está envolvida no desenvolvimento do meduloblastoma. Portanto, analisar alterações genéticas e moleculares envolvidas nesse processo é de grande importância na pesquisa básica e aplicada ao câncer. Nesse sentido, discutimos o possível envolvimento de vias de sinalização bioquímica críticas a ambos os processos de neurogênese normal ou tumorigênese, com base em evidências atuais na área de genética e biologia molecular dos meduloblastomas. Do ponto de vista clínico, a modulação de vias de sinalização como a do TGFβ, regulando proliferação de célula-tronco neural e desenvolvimento tumoral, pode ser uma estratégia alternativa para o desenvolvimento de novos medicamentos objetivando-se terapias mais eficientes e melhora do prognóstico dos pacientes pediátricos com câncer de SNC.