Tetrahedral framework nucleic acid carrying angiogenic peptide prevents bisphosphonate-related osteonecrosis of the jaw by promoting angiogenesis / 国际口腔科学杂志·英文版

The significant clinical feature of bisphosphonate-related osteonecrosis of the jaw (BRONJ) is the exposure of the necrotic jaw. Other clinical manifestations include jaw pain, swelling, abscess, and skin fistula, which seriously affect the patients' life, and there is no radical cure. Thus, new methods need to be found to prevent the occurrence of BRONJ. Here, a novel nanoparticle, tFNA-KLT, was successfully synthesized by us, in which the nanoparticle tetrahedral framework nucleic acid (tFNA) was used for carrying angiogenic peptide, KLT, and then further enhanced angiogenesis. TFNA-KLT possessed the same characteristics as tFNA, such as simple synthesis, stable structure, and good biocompatibility. Meanwhile, tFNA enhanced the stability of KLT and carried more KLT to interact with endothelial cells. First, it was confirmed that tFNA-KLT had the superior angiogenic ability to tFNA and KLT both in vitro and in vivo. Then we apply tFNA-KLT to the prevention of BRONJ. The results showed that tFNA-KLT can effectively prevent the occurrence of BRONJ by accelerating angiogenesis. In summary, the prepared novel nanoparticle, tFNA-KLT, was firstly synthesized by us. It was also firstly confirmed by us that tFNA-KLT significantly enhanced angiogenesis and can effectively prevent the occurrence of BRONJ by accelerating angiogenesis, thus providing a new avenue for the prevention of BRONJ and a new choice for therapeutic angiogenesis.

Vacunas para SARS-CoV-2: diferentes estrategias de los desarrollos en curso / Vaccines for SARS-CoV-2: different strategies of ongoing developments

El objetivo de este artículo es proporcionar una guía que sirva para la interpretación y seguimiento de los esfuerzos que se están desarrollando en todo el mundo con el objetivo de obtener una vacuna que pueda generar inmunidad contra el nuevo coronavirus SARS-CoV-2 de 2019, el agente causante de la enfermedad por coronavirus denominada COVID-19. Cinco meses después de haber sido detectada la enfermedad, ya hay 102 vacunas en distintos estadios de desarrollo, registradas por la Organización Mundial de la Salud (OMS), correspondientes a 8 plataformas vacunales con diferentes estrategias, y todos los días aparecen nuevas. Esto representará un enorme desafío de organismos internacionales, para la evaluación, comparación y selección de aquellas que cumplan con los criterios regulatorios indispensables de seguridad y eficacia y que, por otro lado, puedan ser producidas en cantidades suficientes para abastecer la demanda mundial. (AU)

The objective of this article is to provide a guide to help the interpretation and monitoring the efforts that are being carried out worldwide to obtain a vaccine that will be able to generate immunity against the new 2019 SARS-CoV-2 coronavirus, the viral agent causes the disease named COVID-19. Five months after the disease was detected, there are already 102 vaccines at different stages of development, registered by World Health Organization (WHO), corresponding to 8 vaccination platforms base on different strategies, and every day new ones appear. This will represent a huge challenge for international organizations, to evaluate, compare and selects those that will meet the essential regulatory criteria of safety and efficacy and that, would be able to be produced in enough quantities to supply the worldwide demand. Key words: SARS-Cov-2 vaccine, vaccine platform, COVID-19 strategy, attenuated virus, viral vector, viral proteins, viral DNA, viral RNA, nucleic acids, viral like particles, WHO. (AU)

Osteoprotective properties of RNA-containing drug osteochondrin S on the model of insufficiency of sex hormones in rats / Propiedades osteoprotectoras del fármaco que contiene ARN de osteocondrina S sobre un modelo de insuficiencia de hormonas sexuales en ratas

SUMMARY: The aim of the study was to evaluate the osteoprotective properties of RNA-containing drug Osteochondrin S on rats with experimental model of osteoporosis. Osteochondrin S contains yeast RNA and RNA of connective tissue of cattle. In order to model osteoporosis in rats bilateral ovariectomy was used. Rats were divided into 3 groups: 1 - ovariectomized rats receiving Osteochondrin S; 2 - ovariectomized rats receiving saline; 3 - sham-ovariectomized rats. Rats in group 1 received Osteochondrin S, Group 2 - physiological saline three times a week for 12 weeks. Based on morphological data and on the results of densitometry, Osteochondrin S prevents a decrease in bone density, i.e. exhibits osteoprotective properties. Under the condition of lack of sex hormones in rats Osteochondrin S reduces reactive oxygen species in blood plasma and limits the degree of decrease in antioxidant capacity of blood plasma.

RESUMEN: El objetivo de este estudio fue evaluar las propiedades osteoprotectoras del fármaco que contiene ARN Osteocondrina S en ratas, como modelo experimental de osteoporosis. La Osteocondrina S contiene ARN de levadura y ARN de tejido conectivo de bovinos. Para modelar la osteoporosis en ratas se utilizó ovariectomía bilateral. Las ratas se dividieron en 3 grupos: grupo 1, ratas ovariectomizadas que recibieron Osteocondrin S; grupo 2, ratas ovariectomizadas recibieron solución salina; grupo 3 - ratas ovariectomizadas simuladas. Las ratas del grupo 1 recibieron Osteocondrina S, el grupo 2 solución de suero fisiológico tres veces por semana durante 12 semanas. En base a los datos morfológicos y los resultados de la densitometría, Osteocondrina S evita una disminución de la densidad ósea, es decir, exhibe propiedades osteoprotectoras. Ante la falta de hormonas sexuales en ratas, Osteocondrina S reduce las especies reactivas de oxígeno en el plasma sanguíneo y limita el grado de disminución de la capacidad antioxidante del plasma sanguíneo.