Review of Personalized Medicine and Pharmacogenomics of Anti-Cancer Compounds and Natural Products.

In recent years, the FDA has approved numerous anti-cancer drugs that are mutation-based for clinical use. These drugs have improved the precision of treatment and reduced adverse effects and side effects. Personalized therapy is a prominent and hot topic of current medicine and also represents the future direction of development. With the continuous advancements in gene sequencing and high-throughput screening, research and development strategies for personalized clinical drugs have developed rapidly. This review elaborates the recent personalized treatment strategies, which include artificial intelligence, multi-omics analysis, chemical proteomics, and computation-aided drug design. These technologies rely on the molecular classification of diseases, the global signaling network within organisms, and new models for all targets, which significantly support the development of personalized medicine. Meanwhile, we summarize chemical drugs, such as lorlatinib, osimertinib, and other natural products, that deliver personalized therapeutic effects based on genetic mutations. This review also highlights potential challenges in interpreting genetic mutations and combining drugs, while providing new ideas for the development of personalized medicine and pharmacogenomics in cancer study.

Two new N-containing heterocyclic compounds from the roots of Platycodon grandiflorus.

Two unusual N-containing heterocyclic compounds, Plagranlines B-C, were isolated from the roots of Platycodon grandiflorus. Plagranline B (1) was consisted of neolignane and monomeric quinoline constituent units and plagranline C (2) possessed pyridinone ring that was not commonly discovered in natural product. Their planar structures were elucidated based on analysis of NMR and HRESIMS spectroscopy data, and their absolute configurations were determined by quantum chemical calculations, including GIAO 13C NMR (DP4+) calculation and ECD calculation. In addition, extensive activity screening including glycosidases, oestrogen-like, and NO inhibitory assays were performed, compounds 1 and 2 possessed the weak activities.

Structures and Anti-Inflammatory Evaluation of Phenylpropanoid Derivatives from the Aerial Parts of Dioscorea polystachya.

Seven undescribed phenylpropanoid constituents, including three new bibenzyl derivatives (1-3) along with four new benzofuran stilbene derivatives (4-7), were isolated from the aerial parts of Dioscorea polystachya. The structures of these compounds were elucidated using a combination of spectroscopic analyses, including UV, IR, HRESIMS, 1D, and 2D NMR. Further, all the compounds were evaluated on the anti-inflammatory activity for their inhibition of nitric oxide (NO) production by RAW 264.7 macrophages cells, and some of them (1-3 and 6) displayed inhibitory activity with IC50 values in the range of 9.3-32.3 µM. Moreover, compound 3 decreased the expression of iNOS in Western blot analysis, suggesting compound 3 is mediated via the suppression of an LPS-induced NF-κB inflammasome pathway.

Elucidating the estrogen-like effects and biocompatibility of the herbal components in the Qing' E formula.

ETHNOPHARMACOLOGICAL RELEVANCE: The Qing' E Formula (QEF) is a compound preparation that was originally recorded in the 'Prescriptions of the Bureau of Taiping People's Welfare Pharmacy' during the Song Dynasty (10th century CE). It consists of four Chinese medicinal herbs, Eucommiae Cortex (Eucommia ulmoides), Psoraleae Fructus (Psoralea corylifolium), Juglandis Semen (Juglans regia), and Garlic Rhizoma. According to traditional Chinese medicine (TCM), QEF has the ability to tonify the kidney and strengthen muscle and bone. According to the 'kidney governing bone' theory in TCM, QEF is also used to treat the symptoms of climacteric syndrome, especially osteoporosis caused by reduced production of estrogen during the perimenopausal period; however, the therapeutic roles of the individual components of the QEF and their compatibility within the formula has not been investigated. AIM OF THE STUDY: In this study, the compatibility mechanism and estrogen-like action properties of the four herbal components in the QEF was elucidated according to the organizing principle of Chinese medicine formulas using both in vitro and in vivo models. MATERIALS AND METHODS: The estrogen-like effects of QEF and its herbal components were investigated in MCF7 and HEK293 cells as well as ovariectomized (OVX) rats. The estrogen-like effects of the QEF and its components were analyzed in vitro using Cell Counting Kit-8 and Luciferase reporter gene assays. In the in vivo studies, the blood plasma levels of hormones, lipids, neurotransmitters, aromatase, superoxide dismutase (SOD), and malondialdehyde (MDA) were measured through enzyme-linked immunosorbent assays (ELISAs). The histological morphologies of the target organs after exposure to QEF were investigated by HE staining and immunohistochemical methods. The expression levels of estrogen pathway-related proteins and genes in the OVX rats were measured by Western blotting and real time quantitative PCR (RT-qPCR), respectively. RESULTS: The in vitro results showed that the QEF, Eucommia (EC) and Psoralea (PF) promoted the proliferation of MCF-7 cells and upregulated the expression of ERα, ERß and pS2 genes in the MCF-7 cells. Notably, the QEF demonstrated the most active estrogen-like effects compared to the individual ingredients. The in vivo results showed that the QEF, EC, and PF increased the uterine coefficient, upregulated the expression of both ERs (ERα and ERß) in the uterus, and increased blood serum hormone levels. QEF and its individual components ameliorated menopausal-derived lipid metabolism dysfunction, increased neurotransmitter production by stimulating the adrenal glands, enhanced the antioxidant activity in the serum by increasing the concentration of SOD, reversed ovariectomy-derived atrophy in the uterus, and reduced the weight gain associated with estrogen reduction in the OVX rats. The QEF also antagonize the loss of appetite of OVX animals caused by feeding Psoralea alone, which could explain the compatibility mechanism of Qing' E Formula with reducing toxicity and increasing efficiency. CONCLUSIONS: The estrogen-like effects of Eucommia and Psoralea were mainly mediated through activation of ERα and ERß. The phytoestrogen components regulated hormone production and the expression of related proteins and genes, which indicated that these components exhibited estrogen-like therapeutic effects. However, the QEF showed the greatest estrogen-like effects compared to the individual components. Overall, this corroborated the therapeutic prowess of the QEF and clarified the pharmacodynamic interactions between the different components extracts in the QEF.

Pancake-Like MOF Solid-State Electrolytes with Fast Ion Migration for High-Performance Sodium Battery.

Solid-state electrolyte (SSE) of the sodium-ion battery have attracted tremendous attention in the next generation energy storage materials on account of their wide electrochemical window and thermal stability. However, the high interfacial impedance, low ion transference number and complex preparation process restrict the application of SSE. Herein, inspired by the excellent sieving function and high specific surface area of red blood cells, we obtained a solid-like electrolyte (SLE) based on the combination of the pancake-like metal-organic framework (MOF) with liquid electrolyte, possessing a high ionic conductivity of 6.60 × 10-4 S cm-1, and excellent sodium metal compatibility. In addition, we investigated the ion restriction effect of MOF's apertures size and special functional groups, and the ion transference number increased from 0.16 to 0.33. Finally, the assembled Na0.44MnO2//SLE//Na full batteries showed no obvious capacity decrease after 160 cycles. This material design of SLE in our work is an important key to obtain fast ion migration SLE for high-performance sodium-ion batteries.

Experimental and molecular docking studies of estrogen-like and anti-osteoporosis activity of compounds in Fructus Psoraleae.

ETHNOPHARMACOLOGICAL RELEVANCE: Fructus Psoraleae (FP), dry mature fruits of Cullen corylifolium (L.) Medik., has been used clinically to treat kidney yang deficiency-induced impotence, asthma and cold pain in waist and knee caused by kidney deficiency. A study of the source of the significant kidney-enhancing effect of FP revealed that it may be due to its strong estrogen-like activity. AIM OF THE STUDY: This study aimed to investigate the estrogen-like activity of the FP extract and 13 bioactive compounds in it, as well as the mechanisms underlying their estrogen-like and anti-osteoporosis activities. MATERIALS AND METHODS: The estrogen-like activities of the 75% ethanol-only FP extract, and 75% ethanol plus petroleum ether, ethyl acetate, n-butanol or water FP extracts were each measured using Cell Counting Kit-8 (CCK-8) and luciferase reporter gene assays. The compounds were identified by high-performance liquid chromatography analysis. The activation of estrogen receptor signaling by the compounds was compared with that by estradiol (E2) using the molecular docking software MOE-Dock 2008.10. The activation of the ER-Wnt-ß-catenin signaling pathway was investigated using an alkaline phosphatase (ALP) assay, qPCR analysis and Western blot analysis. RESULTS: The results revealed that the 75% ethanol plus ethyl acetate extract showed the highest estrogen-like activity among the four 75% ethanol extract fractions (further extracted with petroleum ether, ethyl acetate, n-butanol or water). Some compounds in FP showed strong estrogenic effect and anti-osteoporosis activity, and activated the Wnt-ß-catenin pathway. The isoflavone compound was the most active. CONCLUSIONS: This study demonstrated that FP has a strong estrogen-like activity and some of its component compounds have anti-osteoporosis activity by activating the ER-Wnt-ß-catenin signaling pathway. Our detections provide a new insight into the mechanisms underlying the estrogen-like and anti-osteoporosis activities of FP, as well as a better understanding of structure effects.

Electrochemical activation induced multi-valence variation of (NH4)2V4O9 as a high-performance cathode material for zinc-ion batteries.

In this paper, we found that (NH4)2V4O9 undergoes an electrochemical activation process in the first charging process at ∼1.4 V (vs. Zn2+/Zn), leading to a significant improvement of capacity and cycling stability. The activated vanadium oxides delivered a high specific capacity of 477 mA h g-1 at 50 mA g-1 and outstanding cycling stability with 97.7% capacity retention after 5000 cycles at 15 A g-1.

Electron cloud migration effect-induced lithiophobicity/lithiophilicity transformation for dendrite-free lithium metal anodes.

Enabling stable lithium metal anodes is significant for developing electrochemical energy storage systems with higher energy density. However, safety hazards, infinite volume expansion, and low coulombic efficiency (CE) of lithium metal anodes always hinder their practical application. Herein, a nano-thickness lithiophilic Cu-Ni bimetallic coating was synthesized to prepare dendrite-free lithium metal anodes. The electron cloud migration effect caused by the different electronegativities of Cu and Ni can achieve lithiophobicity/lithiophilicity transformation and thus promote uniform Li deposition/dissolution. By changing the ratio of Cu to Ni, the electron cloud migration can be reasonably adjusted for obtaining dendrite-free lithium anodes. As a result, the as-obtained Cu-Ni bimetallic coating is able to guarantee dendrite-free lithium metal anodes with a stable long cycling time (>1500 hours) and a small voltage hysteresis (∼26 mV). In addition, full cells with LiFePO4 as a cathode present excellent cycling stability and high coulombic efficiency. This work can open a new avenue for optimizing the lithiophilicity of materials and realizing dendrite-free anodes.

ZnSe Microsphere/Multiwalled Carbon Nanotube Composites as High-Rate and Long-Life Anodes for Sodium-Ion Batteries.

Sodium-ion batteries (SIBs) are considered as one of the most favorable alternative devices for sustainable development of modern society. However, it is still a big challenge to search for proper anode materials which have excellent cycling and rate performance. Here, zinc selenide microsphere and multiwalled carbon nanotube (ZnSe/MWCNT) composites are prepared via hydrothermal reaction and following grinding process. The performance of ZnSe/MWCNT composites as a SIB anode is studied for the first time. As a result, ZnSe/MWCNTs exhibit excellent rate capacity and superior cycling life. The capacity retains as high as 382 mA h g-1 after 180 cycles even at a current density of 0.5 A g-1. The initial Coulombic efficiency of ZnSe/MWCNTs can reach 88% and nearby 100% in the following cycles. The superior electrochemical properties are attributed to continuous electron transport pathway, improved electrical conductivity, and excellent stress relaxation.