Advances in the Regulation of Follicular Development by Extracellular Vesicles and Non-Coding RNAs / 中国医学科学院学报

Extracellular vesicles (EV),nanoscale vesicles encapsulated by phospholipid bilayers,are rich in biological molecules such as nucleic acids,metabolites,proteins,and lipids derived from parental cells.They are mainly involved in intercellular communication,signal transmission,and material transport and affect the functions of target cells.Ovulation disorders account for a higher proportion in the factors causing infertility which demonstrates increasing incidence year by year.Non-coding RNAs participate in a series of physiological and pathological processes of follicular development,playing a key role in female infertility.This review systematically introduces the types and biological roles of EV and elaborates on the regulation of follicular development from the effects of EV and non-coding RNAs on granulosa cell function,oocyte maturation,ovulation,luteal formation,and steroid hormone synthesis,providing a new idea and a breakthrough point for the diagnosis and treatment of infertility.

Research progress in role of exosomes exosomes in mental disorders / 中南大学学报(医学版)

Exosomes are a class of extracellular vesicles with a structure of lipid bilayer-membrane. In the central nervous system (CNS), exosomes can be secreted from both neurons and glial cells. Exosomes released into the extracellular matrix can freely cross the blood-brain barrier and function as crucial carriers of cellular communication and substance exchange in the CNS. Exosomes play a key role in the pathological process of mental disorders such as schizophrenia, depression, and bipolar disorder, and they have the potential to be used as a targeted carrier of antipsychotic medications. Exosomes are likely to become a new tool in the future to aid in the early prevention, accurate diagnosis, and effective treatment for people with mental disorders.

En el Infarto agudo al miocardio los niveles plasmáticos de microvesículas extracelulares se elevan más precozmente que el aumento de la Troponina-I / Plasma levels of extracellular macrovesicles are elevated earlier than troponin-I in patients with myocardial infarction

Introducción: La Troponina I (TnI) plasmática es el biomarcador "Gold" estándar utilizado en diagnóstico de Infarto Agudo al Miocardio (IAM), indicando necrosis cardíaca. Las microvesículas extracelulares (MVEC), participan en comunicación celular, por lo que estudiar su distribución entregaría información respecto del evento isquémico, antesala del infarto. Objetivo: Estudiar las MVECs plasmáticas en pacientes con Síndrome Coronario Agudo (SCA) y compararlas con los niveles de TnI. Métodos: Plasma de 22 pacientes controles se recolectó 0-2hrs post-ingreso a urgencia. Plasma de 45 pacientes SCA se recolectó 0-2, 6-8 y 10-14hrs post ingreso, junto con la toma de muestra para estudio de TnI. Las MVECs plasmáticas fueron enriquecidas mediante kit comercial. La determinación de la concentración y tamaño MVECs se realizó por NTA (Nanoparticles Tracking Assay) usando el equipo Nanosight. Resultados: La concentración promedio de MVECs 0-2 hrs post ingreso fue 7,2 veces superior en plasma de pacientes con SCA vs controles y la moda del tamaño disminuyó en pacientes con SCA. La TnI no mostró diferencias significativas en 0-2 hrs post ingreso en el grupo estudiado. La concentración de las MVEC disminuyó significativamente después de 10-14 hrs post ingreso, mientras que la concentración promedio TnI se mantuvo invariable demostrando el aumento de MVECs previo al incremento de TnI. Conclusión. El aumento de MVECs previo al incremento de la TnI en pacientes infartados, sugiere que las MVECs aumentan en la fase previa del IAM, como respuesta al daño tisular. Actualmente, estudiamos el contenido molecular de las MVECs, para establecer un método diagnóstico del Síndrome Coronario Agudo basado en MVECs.

Background: Troponin I (TnI) is the gold standard used to establish the diagnosis of myocardial infarction (AMI), indicating the presence of myocardial necrosis. Extracellular micro vesicles are involved in cellular communication. Their distribution may provide information relating to the development of AMI in patients with acute coronary syndromes (ACS) Aim: to study plasma levels of ECMV compared to those of TnI in patients with ACS. Methods: The plasma levels of TnI and ECMV from 22 control patients coming to the emergency units was compared to plasma from 45 patients with ACS. Levels of both parameters were determined 0-2, 6-8 and 10-14 hours post admission. ECMVs were enriched by means of a commercial kit. Concentration and size of ECMV was determined by NTA (Nanoparticles tracking assay) using the Nanosight equipment. Results: Plasma concentration of ECMV was 7.2 times higher than that of TnI 0-2 hrs post admission. The mode of ECMV size was lower in patients with ACS. Concentration of ECMV had decreased significantly 10-14 hrs post admission, whereas the TnI levees remained stable. Conclusion: The increase in ECMV earlier than TnI in AMI suggests that ECMV are elevated in the pre-AMI phase, as a response to early tissue damage. A study of cellular content of ECMV, being carried out, may lead to develop a method for the early diagnosis of AMI in patients with ACS.