Efecto de la alteración de los niveles de expresión de microARN neurogénicos y su implicación en la agresividad de glioblastomas localizados en la región paraventricular / The effects of altered neurogenic microRNA levels and their involvement in the aggressiveness of periventricular glioblastoma

Introducción: El glioblastoma multiforme es el tumor cerebral primario más común y con el pronóstico más desfavorable del sistema nervioso central. A pesar de los numerosos estudios y avances en medicina, este sigue siendo letal, con una esperanza de vida promedio de 15 meses posteriores a la quimiorradioterapia.DesarrolloRecientemente, se han estudiado diversos factores asociados al diagnóstico y el pronóstico de pacientes con glioblastoma, como la localización tumoral, principalmente la zona subventricular; una de las áreas neurogénicas más activas del cerebro humano adulto. Los pacientes con glioblastoma asociados a esta zona en particular presentan generalmente una mayor agresividad, lo que resulta en un pronóstico desfavorable y una menor esperanza de vida. Actualmente, se ha profundizado en el estudio de los microARN, los cuales reflejan patrones de expresión distintos en condiciones fisiológicas o fisiopatológicas. Está reportado que los niveles de expresión de ciertos microARN, principalmente aquellos relacionados a procesos neurogénicos, se ven desregulados en eventos oncogénicos, favoreciendo así la gliomagénesis y la agresividad tumoral. En la presente revisión se discuten algunos de los microARN más importantes implicados en procesos neurogénicos de la zona subventricular y su asociación con la agresividad del glioblastoma.ConclusionesLa regulación y función de los microARN desempeña un rol importante en el desarrollo y la progresión del glioblastoma; en consecuencia, la comprensión de las alteraciones de los microARN implicados en la diferenciación, así como en la maduración neural y glial, podrían ayudar a entender mejor las características malignas del glioblastoma. (AU)

Introduction: Glioblastoma multiforme is the most common primary brain tumour, with the least favourable prognosis. Despite numerous studies and medical advances, it continues to be lethal, with an average life expectancy of 15 months after chemo-radiotherapy.DevelopmentRecent research has addressed several factors associated with the diagnosis and prognosis of glioblastoma; one significant factor is tumour localisation, particularly the subventricular zone, which represents one of the most active neurogenic niches of the adult human brain. Glioblastomas in this area are generally more aggressive, resulting in unfavourable prognosis and a shorter life expectancy. Currently, the research into microRNAs (miRNA) has intensified, revealing different expression patterns under physiological and pathophysiological conditions. It has been reported that the expression levels of certain miRNAs, mainly those related to neurogenic processes, are dysregulated in oncogenic events, thus favouring gliomagenesis and greater tumour aggressiveness. This review discusses some of the most important miRNAs involved in subventricular neurogenic processes and their association with glioblastoma aggressiveness.ConclusionsMiRNA regulation and function play an important role in the development and progression of glioblastoma; understanding the alterations of certain miRNAs involved in both differentiation and neural and glial maturation could help us to better understand the malignant characteristics of glioblastoma. (AU)

The effects of altered neurogenic microRNA levels and their involvement in the aggressiveness of periventricular glioblastoma.

INTRODUCTION: Glioblastoma multiforme is the most common primary brain tumour, with the least favourable prognosis. Despite numerous studies and medical advances, it continues to be lethal, with an average life expectancy of 15 months after chemo-radiotherapy. DEVELOPMENT: Recent research has addressed several factors associated with the diagnosis and prognosis of glioblastoma; one significant factor is tumour localisation, particularly the subventricular zone, which represents one of the most active neurogenic niches of the adult human brain. Glioblastomas in this area are generally more aggressive, resulting in unfavourable prognosis and a shorter life expectancy. Currently, the research into microRNAs (miRNA) has intensified, revealing different expression patterns under physiological and pathophysiological conditions. It has been reported that the expression levels of certain miRNAs, mainly those related to neurogenic processes, are dysregulated in oncogenic events, thus favouring gliomagenesis and greater tumour aggressiveness. This review discusses some of the most important miRNAs involved in subventricular neurogenic processes and their association with glioblastoma aggressiveness. CONCLUSIONS: MiRNA regulation and function play an important role in the development and progression of glioblastoma; understanding the alterations of certain miRNAs involved in both differentiation and neural and glial maturation could help us to better understand the malignant characteristics of glioblastoma.

The effects of altered neurogenic microRNA levels and their involvement in the aggressiveness of periventricular glioblastoma. / Efecto de la alteración de los niveles de expresión de microARN neurogénicos y su implicación en la agresividad de glioblastomas localizados en la región paraventricular.

INTRODUCTION: Glioblastoma multiforme is the most common primary brain tumour, with the least favourable prognosis. Despite numerous studies and medical advances, it continues to be lethal, with an average life expectancy of 15 months after chemo-radiotherapy. DEVELOPMENT: Recent research has addressed several factors associated with the diagnosis and prognosis of glioblastoma; one significant factor is tumour localisation, particularly the subventricular zone, which represents one of the most active neurogenic niches of the adult human brain. Glioblastomas in this area are generally more aggressive, resulting in unfavourable prognosis and a shorter life expectancy. Currently, the research into microRNAs (miRNA) has intensified, revealing different expression patterns under physiological and pathophysiological conditions. It has been reported that the expression levels of certain miRNAs, mainly those related to neurogenic processes, are dysregulated in oncogenic events, thus favouring gliomagenesis and greater tumour aggressiveness. This review discusses some of the most important miRNAs involved in subventricular neurogenic processes and their association with glioblastoma aggressiveness. CONCLUSIONS: MiRNA regulation and function play an important role in the development and progression of glioblastoma; understanding the alterations of certain miRNAs involved in both differentiation and neural and glial maturation could help us to better understand the malignant characteristics of glioblastoma.