Emerging nanotherapeutics alleviating rheumatoid arthritis by readjusting the seeds and soils.

Rheumatoid arthritis (RA) is a complicated autoimmune disease that results in severe joint inflammation, synovial hyperplasia, pannus formation, cartilage and bone destruction, and other RA-associated complications. Although the pathogenesis of RA remains unclear, increasing reports have shown that inflammation-relevant cells and the microenvironment of inflamed joints play a critical role in the formation and aggravation of RA. Recently, numerous nanotherapeutics have been engineered to overcome these intractable challenges by readjusting inflammation-related seeds (endothelial cells, macrophages, neutrophils, antigen-presenting cells, fibroblasts, osteoclasts, T cells, B cells, and chondrocytes) and inflamed soils (NO, cell-free DNA, hypoxia, ROS, and pro-inflammatory cytokines). In this review, we first present a detailed pathogenesis of RA, with an emphasis on the emerging advances in regulating seeds or remodeling soils for RA treatment. We then outline these intelligent therapeutics via synergistic seed-soil adjustment, particularly for spatiotemporally cascade-responsive or all-in-one integrational nanosystems. Finally, we briefly discuss the ongoing challenges and prospects for the clinical development and translation of seed soil-based therapies.

The application of biotechnology in medicinal plants breeding research in China.

Breeding is not only an important area of medicinal plants research but also the foundation for the superior varieties acquirement of medicinal plants. The rise of modern biotechnology provides good opportunities and new means for medicinal plants breeding research in China. Biotechnology shows its technical advantages and new development prospects in breeding of new medicinal plants varieties with high and stable yield, good quality, as well as stress-resistance. In this paper, we describe recent advances, problems, and development prospects about the application of modern biotechnology in medicinal plants breeding research in China.

[Analysis of trace elements in chrysanthemum from different habitats with ICP-MS].

OBJECTIVE: To establish a method for determination of trace elements in chrysanthemum and analyze trace elements in chrysanthemum from different habitats. METHODS: The preprocessing for determination of trace elements in chrysanthemum was carried out by microwave digestion,the content of trace elements in chrysanthemum was determined by ICP-MS. RESULTS: The content of trace elements of chryscmthemum varied with the habitats. CONCLUSION: The contents of trace elements as well as heavy metals of Chrysanthemum relate to its species and habitats to a certain degree.