Surface phytolith and pollen assemblages of a low-latitude subtropical region in Southwest China and their implications for vegetation and climate.

Phytoliths, as a newly developing plant proxy, have broad application prospects in paleoclimate and paleoethnobotany. However, the shortage of studies regarding tropical-subtropical plants and topsoil phytoliths interferes with the research progress on primitive humanity's utilization of plant resources and paleoclimate in the region. This research focuses on the subtropical mountainous region with a monsoon climate of low latitudes in Southwest China to conduct phytolith morphology analysis of living plants and phytolith/pollen assemblages of topsoil to reveal the indicative significance of vegetation and climate. A total of 111 species from 50 families, including 73 species from 33 tree/shrub families, 31 species from 12 herb families and 7 species from 5 fern families, were collected for morphological characteristics analysis, as well as 19 topsoil specimens for phytolith and pollen assemblage analysis. The results suggest that phytoliths are mainly deposited in situ, with assemblages of topsoil corresponding well with plant types in the quadrat and being able to exhibit constructive species in small regions. In comparison, pollen assemblages of topsoil dominantly respond to regional vegetation due to their long-distance transportation and widespread presence, in addition to their characteristics that correspond to the vegetation in the quadrat. The topsoil phytolith assemblages are mainly based on the elongate-bulliform flabellate-square/rectangle-broadleaf-types (including spheroid echinate), and the vegetation types indicate the subtropical climate. In addition, phytolith assemblages of Poaceae are dominated by collapsed saddle-bulliform flabellate square/rectangle-elongate-point, reflecting warm and humid conditions. The pollen assemblages mainly consist of Pinus, Betula, Alnus, deciduous Quercus, Euphorbiaceae, Rhamnaceae and Polygonum, reflecting tropical-subtropical plant communities and indicating warm and humid conditions. Overall, phytolith and pollen assemblages have unique characteristics and are thus explicitly representative of the low-latitude subtropical monsoon climate.

Design, synthesis and biological evaluation of 4-aniline quinazoline derivatives conjugated with hydrogen sulfide (H2S) donors as potent EGFR inhibitors against L858R resistance mutation.

In this study, a series of 4-aniline quinazoline derivatives bearing hydrogen sulfide (H2S) donors were designed, synthesized and evaluated for biological activities. The synthesized compounds were screened for the enzymatic activities against EGFR and EGFR mutants by kinase target-based cell screening method. The results demonstrate that most compounds exhibit selectively inhibitory activities against TEL-EGFR-L858R-BaF3, especially compound 9h with GI50 = 0.008 µM (TEL-EGFR-L858R-BaF3), 0.0069 µM (TEL-EGFR-C797S-BaF3), >10 µM (BaF3), >10 µM (TEL-EGFR-BaF3) and 6.03 µM (TEL-EGFR-T790M-L858R-BaF3). The results from anti-proliferative assays in two NSCLC cell lines indicate that synthetic derivatives (9g, 9h, 15e and 15f) with H2S donor ACS81 display greater anti-proliferative potency against NSCLC cell line H3255 bearing EGFR mutant (L858R) with GI50 values ranging from 0.3486 to 1.348 µM. In addition, compound 9h exhibits weak anti-proliferative effects on other tumor cells (HepG2, MCF-7, HT-29 and A431) and has lower toxic effect on HUVEC cells than AZD9291 (positive control). Meanwhile, compound 9h inhibits the phosphorylation of EGFR in H3255 cells in a dose-dependent manner. Cell cycle analysis reveals that compound 9h suppresses the proliferation of cells by inducing cell cycle arrest in G0-G1 phase. The result of H2S release evaluation suggests that the H2S release of compound 9h is significantly more and faster than other compounds.