RESUMO
This rapid response surveillance project was funded by the National Science Foundation (NSF) to collect "perishable" data on egress behaviors and neighborhood conditions surrounding healthcare centers (HCCs) in New York City (NYC) during the initial NYC COVID-19 PAUSE ordinance from March 22nd to May 19th, 2020. Anonymized data on NYC HCC egress behaviors were collected by observational field workers using phone-based mapping applications. Each egress trip record includes the day of week, time of day, destination category type, along with an array of behavioral outcome categories, ambient weather conditions and socio-economic factors. Egress trajectories with precise estimates of distance traveled and the spatial dispersion or "spread" around each HCC were added via post-processing. The data collection and cleaning process resulted in 5,030 individual egress records from 18 facilities over a 9-week period.
RESUMO
Perivascular adipocyte (PVAC) biofunctions were closely related to cardiovascular diseases; its specific biological mechanisms remained unclear. How to adjust PVAC functions of vascular cells is an important topic. The present study was designed to investigate whether FAK/Pyk2 and ERK1/2 MAPK signaling pathways participate in PVAC functions, which is activated by insulin-like growth factor 1(IGF-1) and inhibited by Gax. PVACs isolated from perivascular adipocyte were cultured, dedifferentiated, and stimulated with 10nM IGF-I. Cellular function experiments showed that IGF-1 promoted PVAC proliferation, adhesion, and migration. However Gax weakened IGF-1-mediated these function. Flow cytometry demonstrated that IGF-1 increased PVACs percent of S phase and decreased the percent of G0/G1 phase and apoptotic cells. While, Gax decreased the percent of S phase cells and increased those of G0-G1 phase and apoptotic cells. Western blotting and RT-PCR revealed that IGF-1 activated FAK/Pyk2 and ERK1/2 signaling pathways, upregulated the mRNA and protein expression of FAK, Pyk2, and ERK1/2, and suppressed p53 expression. Reversely, Gax lowered the expression of these signaling proteins and increased p53 expression. Therefore, IGF-1 mediated FAK/Pyk2 and ERK1/2 pathways to augment PVAC functions; Gax effectively counteracted these effects of IGF-1, repressed PVAC activities, and increased the cell apoptosis. Our findings suggested that FAK/Pyk2 and ERK1/2 cooperative activation mediated by IGF-1 is essential for PVAC functions, and Gax is a promising candidate gene to interfere with these signaling pathways and inhibit PVAC functions.
