The gut microbiota is an intricate and dynamic community composed of many symbiotic and pathogenic microorganisms, and works closely with the host. In recent years increasing evidence has supported the gut-brain axis theory, lending support for a link between gut microbiota and neuropsychiatric diseases. Since most of the drugs used to treat neuropsychiatric diseases enter the intestinal tract after oral administration, interaction with the gut microbiota is likely. A number of studies have shown that such drugs can change the composition and function of the gut microbiota. At the same time, the gut microbiota also participates in the metabolism of drugs, which in turn have beneficial or harmful effects on brain function. Therefore, the role of gut microbiota in drug metabolism also has attracted attention. This article reviews the research results of the interaction between the two, discusses the influence of neuropsychiatric diseases on the gut microbiota and the effect of the gut microbiota on psychoactive drugs, and provides new ideas for the treatment of various clinical neuropsychiatric diseases.

E2F transcription factor 1 (E2F1) is a major member of the E2F transcription factor family and participates in a wide range of physiological regulatory processes, such as cell cycle, survival, apoptosis, and metabolism. It is proved that the activity of E2F1 is related to the G1/S phase regulation of the cell cycle dependent on tumor suppressor retinoblastoma protein (RB). Recent studies have shown that E2F1 is highly expressed in prostate cancer cells, manifested as an oncogene, and its expression level is closely related to the occurrence, development, and poor clinical prognosis of prostate cancer. Androgen receptor (AR) is the main driving factor for the growth and progression of prostate cancer, and the changes of AR pathway play a key role in the pathological progression of prostate cancer. This article provide a systematic and comprehensive summary on recently published articles to review the role of the E2F1 pathway in prostate cancer.

Mitochondria play a key role in cell metabolism. In addition to synthesizing ATP, they also participate in many physiological and pathological processes, including apoptosis, inflammation, oxidative stress, neuronal disease, tumor development, and aging. Most gene transcription of mitochondrial proteins occurs in the nucleus, so the biogenesis of mitochondria and the maintenance of mitochondrial homeostasis mainly depend on the expression of nuclear genes (nDNA) and mitochondria-nucleus interactions. Conversely, mitochondria can affect the expression of nuclear genes through nuclear transcription factors, a process called mitochondrial retrograde signaling. This review summarizes the research progress on mitochondria-nucleus retrograde signaling and its regulation, including the ways by which mitochondria regulate nuclear genes and affect biological processes, and discusses new strategies for the treatment of diseases that involve mitochondrial retrograde signaling in disease pathology.

The inflammatory response is an essential role of innate immune cells such as neutrophils, which plays an important role in the occurrence and development of inflammatory diseases. Neutrophil extracellular traps (NETs) are responsible for killing microorganisms and inducing the inflammatory response. We review the function of NETs in inflammatory diseases based on research publications since 2016. In addition, the ability of drugs that target NETs to ameliorate inflammation-related diseases is summarized. This review suggests a new strategy of targeting NETs for the treatment of inflammation-related diseases.

Neuropathic pain (NP) is a medical problem that has been bothering human beings and seriously affects people's quality of life. Although great progress has been made in the study of NP in recent years, there are still many patients who are ineffective to the existing treatments. At present, drug therapy is still the main method to relieve pain, however, adverse drug reactions has hindered the curative effects of drugs. It is extremely urgent to find new drug targets and reduce the adverse effects of existing drugs. This review will mainly describe the current situation and pathogenesis of neuropathic pain, effectiveness and limitations of existing drugs for treating neuropathic pain, and the current status of drug discovery.

Colorectal cancer is a common malignant tumor in the gastrointestinal tract, with the characteristics of high morbidity and mortality. Studies have shown that the occurrence and development of colorectal cancer is closely related to the abnormal activation of Wnt signaling pathway. Abnormal expression of β-catenin in Wnt pathway is found both in the cytoplasm and nucleus of tumor cells. Different drugs can target the Wnt signaling pathway and its upstream and downstream related factors to inhibit or suppress the development of colorectal cancer. We review the components of Wnt signaling pathway, and the correlation between Wnt signaling pathway and colorectal cancer. Then, we summarize the current status of drug research targeting the Wnt signaling pathway in colorectal cancer. Finally, the challenges and prospects of these methods and drugs were briefly summarized.

Nucleotide binding oligomerization domain (NOD)-like receptor protein 3, NLRP3) inflammasomes regulate the secretion of caspase-1, interleukin-18 (IL-18), IL-1β, and other cytokines, and participates in aging. In recent years, it has been found that NLRP3 inflammasomes are abnormally activated in aging heart and vessels, and inhibition of NLRP3 inflammasomes can alleviate heart aging and vascular aging. This review summarizes the research of NLRP3 inflammasome in heart and vascular aging, and the related drugs to promote the discovery of the mechanism of NLRP3 inflammasome in heart and vascular aging and the development of related drugs.

The abnormal activation and mutation of signal transducer and activator transcription (STAT) proteins has been implicated in multiple lymphomas. The research discovery and clinical application of STATs inhibitors have become an important strategy for treating lymphoma. This review introduces the abnormal activation and mutation of STATs in multiple malignant lymphomas, and focuses on reviewing the latest screening strategies targeting STATs and its clinical application in the treatment of lymphoma, providing references for the further development of STATs inhibitors.

Selective activation or inhibition of the angiotensin Ⅱ type 2 (AT₂) receptor can cause vasodilation, decrease cell proliferation, promote neurite outgrowth and block neuronal excitability. The AT₂ receptor can be used as a potential drug target for the treatment of cardiovascular diseases, fibrosis, inflammation, neuronal diseases and tumors. Research and development of new drugs that selectively act on the AT₂ receptor and the mechanism of intracellular signal transduction involving the AT₂ receptor is a challenging but worthy endeavor. We review research progress on the AT₂ receptor and compounds that act on the AT₂ receptor, along with structure-activity relationship analysis, to provide reference and guidance for further research in this field.

Indoleamine 2, 3-dioxygenase 1 (IDO1) is the rate-limiting enzyme in the degradation of tryptophan to kynurenine. IDO1 is highly expressed in some tumor tissues. IDO1 can deplete tryptophan in tumor microenvironment, inhibit T cell function, and mediate the immune escape of tumor cells. Thus, IDO1 is considered a potential target of tumor immunotherapy. Currently, there are several IDO1 inhibitors in clinical research studies. The mechanism of IDO1-mediated tumor immune escape and the structure of IDO1 inhibitors are summarized in this review.

With a deepening understanding of cancer treatment, immune checkpoint inhibitors are recognized widely as a novel fundamental remedy for various malignancies with effectiveness and safety. With the development of pharmacometrics, model-informed drug development (MIDD) has emerged to accelerate the process of clinical research for new drugs and improve the accuracy of decision-making in new drug research, especially for immune checkpoint inhibitors. As a typical illustration, the research development of pembrolizumab is presented in this review to highlight the application of MIDD, which may provide a reference for the development of other new antitumor drugs.

Biphasic dissolution test, consisting of immiscible aqueous and organic phase, is an in vitro dissolution method that simultaneously measures the dissolution and partition of drugs. Due to the advantages of simulating in vivo absorption and overcoming the influence of surfactants on dissolution, it has been widely used to evaluate the poorly soluble drugs in vitro dissolution. Based on the relevant research in this field in recent years, this review summarizes the history, dissolution device, theoretical model and application of the biphasic dissolution test. Finally, the prospects in the development of biphasic dissolution test are also outlined.

Multi-template molecularly imprinted solid phase extraction not only has the advantages of high selectivity, large adsorption capacity, easy preparation, reuse and low environmental pollution, but also can realize the enrichment and separation of many kinds of compounds. It has attracted wide attention in the extraction and separation of traditional Chinese medicine components. This study summarizes the latest development of multi-template molecularly imprinted solid phase extraction. At the same time, based on the classification of active components of traditional Chinese medicine (flavonoids, alkaloids, phenylpropanol, terpenes, etc.), the latest application of multi-template molecular imprinting solid phase extraction in multi-component separation of traditional Chinese medicine was reviewed, with a view to better application of multi-template molecularly imprinted polymer in active multi-component extraction and separation of traditional Chinese medicine and provide reference for the material basic research of the efficacy of traditional Chinese medicine.

Blood-brain barrier (BBB) is the most challengeable obstacle for brain-targeted drug delivery. The combination of focused ultrasound (FUS) and microbubbles provides a new way for brain-targeted drug delivery across BBB based on the cavitation effect. This review briefly described the recent research of FUS combined with microbubbles to enhance the BBB permeability for brain-targeted drug delivery. The contents included the FUS mechanism, the types of the commercial microbubbles, shell materials, inner gas and preparation techniques of microbubbles, the opening mechanism of FUS with microbubbles, and the safety consideration. FUS combined with microbubbles may be the effective strategy to improve the BBB permeability for brain-targeted delivery, which could provide references for the clinical applications.

This study investigated the mechanism by which baicalein protected PC12 cells from Aβ_25-35-induced injury. PC12 cells were treated with Aβ_25-35 (20 μmol·L^-1) and the ability of baicalein to prevent apoptosis was investigated by monitoring changes in cell morphology, Hoechst 33342 staining, and measurement of inflammatory factors. Western blotting was used to detect the expression of the apoptosis-related proteins cysteinyl aspartate specific proteinase-3 (caspase-3), cleaved cysteinyl aspartate specific proteinase-3 (cleaved caspase-3), proteins involved in the Janus kinase 2/signal transducer and activator of transcription 1 (JAK2/STAT1) pathway, and downstream inducible nitric oxide synthase (iNOS) and cyclooxygenase-2 (COX-2). The results show that baicalein (80 μmol·L^-1) can significantly inhibit apoptosis and the release of inflammatory factor IL-8 and TNF-α in Aβ_25-35-treated PC12 cells. Western blotting results showed that baicalein can inhibit the phosphorylation of JAK2 and STAT1 and decrease the expression of downstream iNOS and COX-2, thereby inhibiting the JAK2/STAT1 signaling pathway and preventing Aβ_25-35-induced PC12 cell damage.

This study investigated the mechanism by which icaritin (ICT) inhibits exosomes-induced lung metastasis of B16BL6 mouse melanoma cells. The culture supernatant of B16BL6 cells was collected for extraction of exosomes by ultracentrifugation and their characterization by transmission electron microscopy and Western blotting. Exosomal protein was quantified by BCA. A wound-healing assay was used to determine the effect of ICT on the migratory ability of B16BL6 cells induced by exosomes. After establishing an experimental melanoma lung metastasis model in C57BL/6 mice, we used H & E staining to study the ability of ICT to inhibit exosomes-induced melanoma metastasis. Animal experiments were approved by the Ethics Committee of Nanjing University of Chinese Medicine. ELISA and immunofluorescence were used to detect pro-inflammatory factors interleukin 6 (IL-6), S100 calcium-binding protein A8/A9 complex (S100A8/A9), serum amyloid A (SAA) and fibronectin in metastatic tumors. The expression of metastatic tissue-related proteins stimulator of interferon gene (STING), phospho-STING (p-STING), TANK-binding kinase 1 (TBK1) and phospho-TBK1 (p-TBK1) was detected by immunohistochemistry or Western blotting. The results showed that the particle size of exosomes was 149.33±2.68 nm, the polydispersity index (PDI) was 0.192±0.02, the zeta potential was -32.22±0.50 mV, and the particles had classic tea tray-like membrane structure under TEM. The protein concentration of exosomes was measured to be 838.66±62.14 μg·mL^-1. The results of the cell scratch test showed that ICT can inhibit exosomes-induced migration of B16BL6 cells at a concentration of 5, 10, and 20 μmol·L^-1. In vivo experimental results also showed that ICT can inhibit exosomes-induced metastasis of melanoma to the lungs and can significantly inhibit the expression of pro-inflammatory factors S100A8/A9, SAA and IL-6 in lung tissue, and inhibit the expression of p-STING and p-TBK1 in metastatic lung tissue. Taken together, these results indicated that ICT can significantly inhibit exosomes-induced tumor metastasis, and the inhibition is related to the inactivation of STING in metastatic foci.

Sempervirine, a yohimbane-type alkaloid isolated from Gelsemium elegans, was found to significantly inhibit the cellular proliferation of U251 cells in vitro and in vivo in a dose-dependent manner. U251 cells were treated with 0-16 μmol·L^-1 of sempervirine for 24, 48 or 72 h. An MTT assay and clone formation assay were used to investigate cell survival and clone formation. Hoechst staining and Annexin V-FITC/PI staining were used to measure cell apoptosis. The expression of PI3K, AKT, p-AKT, Bax, Bcl-2, caspase-3 and cleaved caspase-3 was determined by Western blot analysis. The antitumor effect of sempervirine in vivo was investigated by inoculating nude mice with U251 cells. All animal experiments were in strict accordance with the regulations of the Biomedical Ethics Committee of Fujian Medical University (Fujian, China). The results show that sempervirine significantly inhibits the proliferation and induces the apoptosis of U251 cells, promotes cleavage of caspase-3, down-regulates the protein expression of PI3K and Bcl-2/Bax, and inhibits phosphorylation of AKT in vitro. Intraperitoneal injection of 4 or 8 mg·kg^-1·day^-1 of sempervirine inhibits U251 cells tumor growth in the xenograft nude mice, and tumor weight decreased by 44.76% and 61.26%, respectively. Our study shows that sempervirine significantly inhibits the proliferation of U251 cells in vitro and in vivo, laying a foundation for further research and development of its anti-glioma effect.

Dengue virus (DENV) is the most rapidly transmitted mosquito-borne pathogen, which is the main cause of seasonal outbreaks of dengue fever and dengue hemorrhagic fever in tropical and subtropical regions, and may cause serious life-threatening diseases. There is an urgent need to develop effective vaccines or antiviral therapies. In this paper, we found that a podocarpane-type diterpenoid, (3α, 5β, 10α)-13-methoxypodocarpa-8, 11, 13-triene-3, 12-diol (MPTD), isolated from the stems and leaves of Aleurites moluccana, showed good effect against DENV. The anti-DENV activity of MPTD against four different DENV serotypes was studied by plaque assay. The cytotoxicity of MPTD in Vero and Huh7 cells was tested by MTT assay. qRT-PCR and Western blot assays were used to investigate the anti-DENV activity of MPTD at RNA and protein levels, respectively. The results showed that MPTD greatly reduced the virus titer in DENV infected Vero cells, and its 50% effective concentration (EC₅₀) for DENV (1-4) were 2.72±0.39, 10.99±5.18, 18.72±0.21, and 0.48±0.28 μmol·L^-1, respectively. The results showed that MPTD inhibits DENV RNA level and the expression of E protein. In addition, MPTD may inhibit the early stage of DENV replication and exert antiviral activity. Further studies showed that the inhibitory effect of MPTD against DENV infection is not targeting the viral entry stage. Therefore, MPTD has a significant anti-dengue virus effect, and is an anti-DENV compound with potential application value.

Autophagy, an evolutionarily conserved process by which components of the cell are degraded in lysosomes, may facilitate survival of cancer cells under stress conditions. 8-Azaguanine (8-AG), an inhibitor of purine nucleotide biosynthesis, shows antineoplastic activity in multiple tumor cells. However, chemoresistance has restricted its development as an anticancer agent, and the mechanism of 8-AG resistance is not fully understood. We report here that 8-AG induces a protective autophagy to eliminate its cytotoxicity, and inhibition of autophagy increases cellular sensitivity of cancer cells to 8-AG treatment. Using HepG2 or SMMC-7721 hepatic cancer cell lines, we found that 8-AG inhibited cell viability and induced intrinsic apoptosis, accompanied by the up-regulation of the pro-apoptotic protein BimS, one of Bim (also known as BCL-2-like protein 11, BCL2L11) isoforms. Furthermore, 8-AG treatment enhanced the autophagy flux by promoting the dephosphorylation and activation of Unc-51-like autophagy activating kinase 1 (ULK1) via Akt/mTORC1 (mammalian target of rapamycin complex 1) signaling inhibition. Depletion of autophagy-related gene 7 (ATG7) markedly enhanced the level of BimS, and promoted cell death in response to 8-AG. 8-AG in combination with autophagy inhibitor chloroquine (CQ) or bafilomycin A1 (Baf A1) promoted the 8-AG-induced apoptosis in hepatic cancer cells. Altogether, these findings suggest that autophagy promotes chemoresistance of cancer cells for 8-AG, and blocking autophagy increases cellular sensitivity of cancer cells to 8-AG treatment.

In this study, a composite cell model for evaluation of idiosyncratic drug-induced liver injury (IDILI) was established in vitro from the perspective of immune inflammation. And this model was used to evaluate the risk of IDILI for 2, 3, 5, 4'-tetrahydroxy-cis-stilbene-2-O-β-glucoside (Cis-SG) and 2, 3, 5, 4'-tetrahydroxy-trans-stilbene-2-O-β-glucoside (Trans-SG). To determine the low, medium, and high dosage of Cis-SG and Trans-SG, CellTiter-Glo^® 3D Cell Viability Assay was used to detect the effects of Cis-SG and Trans-SG on cell viability of HepG2 cells in three dimensional (3D) culture, and MTT assay was used to detect the effects of Cis-SG and Trans-SG on cell viability of THP-1 derived macrophages. THP-1 derived macrophages were incubated by Cis-SG and Trans-SG directly or supernatants from HepG2 cells incubated with them. Enzyme linked immunosorbent assay (ELISA) was used to detect the levels of interleukin-1β (IL-1β) in the supernatants of the THP-1 derived macrophages. Western blot and reverse transcription-polymerase chain reaction (RT-PCR) were used to determine the expression of apoptosis-associated speck-like protein (ASC), Nod-like receptor protein 3 (NLRP3), cysteinyl aspartate specific proteinase-1 (caspase-1), and IL-1β in THP-1 derived macrophages. The results showed that there was no effect on the secretion of IL-1β in THP-1 derived macrophages incubated by Cis-SG and Trans-SG directly. However, the secretion of IL-1β, the protein and mRNA expression of ASC, NLRP3, caspase-1, and IL-1β significantly increased in THP-1 derived macrophages incubated by supernatants from HepG2 cells incubated with 1, 5, and 25 μmol·L^-1 Cis-SG or 25 μmol·L^-1 Trans-SG. In summary, the composite cell model for evaluation of IDILI established in vitro has been successfully applied in testing Cis-SG and Trans-SG. This composite cell model is helpful to evaluate and screen drugs with IDILI risk in vitro preliminarily, which provides methods for predicting and solving the idiosyncratic liver toxicity of drugs.

This study integrates metabolomics and network pharmacology techniques to systematically analyze the possible mechanism of Pudilan Xiaoyan oral liquid (PDL) in the treatment of acute respiratory infections. GC-MS metabolomics analysis found 8 endogenous metabolites, 3-phosphoglycerate, α-aminoadipate, D-ribulose-5-phosphate, β-mannosylglyceric acid, D-fructose, urea, D-maltose and ornithine in the serum of mice with acute respiratory infection induced by LPS; these substances can be used as biomarkers for PDL use in the treatment of acute respiratory infections. Biological network studies revealed 10 potential targets for intervention by PDL in the glycolysis and pentose phosphate pathways, including GPI, G6PD, H6PD, PFKM, TALDO1, TKT, GAPDH, HK1, PKLR and TPI1. All animal experiments were carried out with approval of the Animal Ethics Committee of Nanjing University of Chinese Medicine. Our findings indicate that the strategy of combining metabolomics and network analysis can provide information on the possible mechanism of PDL in acute respiratory infections, and reveal that PDL may ameliorate the pathological process of acute respiratory infections by regulating disordered metabolic pathways.

Drug-induced liver injury and herbal preparations containing pyrrolizidine alkaloid (PA) have gained global attention. The purpose of this research was to investigate the effects and mechanisms of Alismatis Rhizoma, a traditional Chinese medicine, to protect against acute liver injury in mice induced by senecionine (SEN), a representative toxic PA compound. All experiments were approved by the Animal Research Committee of Shanghai University of Traditional Chinese Medicine. Animal welfare and the animal experimental protocols were strictly consistent with related ethics regulations of Shanghai University of Traditional Chinese Medicine. Acute liver injury was induced by a single intragastric administration of SEN (50 mg·kg^-1). Mice in the protection groups received intragastric administration of Alismatis Rhizoma water extract (WE, 18 g·kg^-1 per day) or ethanol extract (EE, 18 g·kg^-1 per day) 5 days before SEN treatment. The results show that Alismatis Rhizoma extracts can significantly attenuate acute liver injury in mice. Mice in the protection groups showed decreased serum activities of alanine aminotransferase and aspartate aminotransferase, as well as decreased total bile acids. In addition, the infiltration of inflammatory cells, sinusoidal hemorrhage, and hepatic necrosis in SEN-treatment mice was clearly attenuated in the protection groups. Interestingly, EE showed a better effect than WE. The content of principal bile acids in serum and the mRNA and protein expression of key factors related to bile acid metabolism were also measured. Alismatis Rhizoma up-regulated the bile acid transporters and drug metabolism enzymes, consistent with the observed bile acid homeostasis and alleviation of SEN-induced injury to hepatocytes. The present study points to the possibility of utilizing Alismatis Rhizoma for protection against liver injury caused by drugs and preparations containing PA.

Five cadinane-type sesquiterpenoids were isolated from the n-hexane extract of Commiphora myrrha by using various chromatographic techniques, including silica gel, ODS and semi-preparative HPLC. Their structures were identified by physicochemical properties and spectroscopic data. These compounds were defined as (3S, 4R)-3, 9-dimethoxymyrrhone (1), 9-methoxymyrrhone (2), myrrhone (3), commiterpene B (4) and comosone Ⅱ (5). Compound 1 is a new compound, of which the absolute configuration was established by single crystal X-ray crystallographic analysis. Compound 5 is firstly isolated from the Commiphora genus.

To find antibacterial candidate compounds, eighteen novel sulfonamide derivatives containing a fused-ring were designed and synthesized on the basis of previous studies, with structures confirmed by ¹H NMR, ¹³C NMR and MS. Antibacterial activities of the products were evaluated by the agar dilution method. The results show that these derivatives have different degrees of inhibitory activity on the tested bacteria, with the compounds Ⅱi and Ⅱr the most potent. The MIC of Ⅱi for S. aureus, E. coli and MRSA was 8, 32 and 16 μg·mL^-1, respectively, and the MIC of the Ⅱr was 8, 64 and 32 μg·mL^-1, respectively. The anti-MRSA activities of the two compounds is significant and is worthy of further structural optimization and study.

The poor stability of the ligustilide (LIG) makes its quantitation in Angelica sinensis (AS) difficult. This study establishes a chemical conversion method for the determination of ligustilide content in AS and proposes a national pharmacopoeia standard. Mechanical agitation and sonication of a powdered AS extract in a methanol/cyprolamine mixture facilitated the stabilization and transformation of ligustilide. Using an external reference HPLC-DAD method, the cyclopropyl-ligustilide (LIGc) content in the mixture could be determined. The content of ligustilide was greater than 1.0% based on 144 AS specimens including 68 obtained from the originally planted areas of Qinghai and Gansu Province; 55 specimens were obtained from Minxian and Weiyuan County medicine markets, and 21 specimens for which the storage period reached or exceeded 1.5 years. According to the Hong Kong Chinese materis medica standards, the content of ligustilide in AS should not be lower than 0.6%. The developed method could also be applied to the quality control of other Chinese medicinal materials (such as Ligusticum chuanxiong) or Chinese patent medicines in which ligustilide is the main component.

The permeation and pharmacodynamics of ocular drugs are influenced by the corneal barrier. Here, a hard-soluble drug, brinzolamide, was selected as the model drug and used for preparation of minimally invasive dissolving microneedles. Brinzolamide was dissolved in ethanol and polyvinylpyrrolidone (PVP) K90 was added and dissolved. The mixture solution was casted into the dissolving microneedles mold and dried and brinzolamide dissolving microneedles (BMN) were obtained after demolding. The stereoscopic and scanning electron microscopic images showed that BMN were conical needles with the height of 750 μm, the bottom diameter of 300 μm, and the inter-tip distance of 500 μm. The dissolving microneedles patch was composed of 10×10 arrays with the area of 1 cm² and the high drug load of 7.3 mg·cm^-2. BMN showed a rapid in vitro drug release with 93% accumulative release at 2 h and the high drug corneal permeation amount of 877±105 μg. BMN exhibited the high mechanical strength of 0.32 N/needle, leading to easy rat corneal insertion with the depth of 200 μm. Moreover, BMN were rapidly dissolved in the cornea, and more importantly, the damaged cornea were quickly self-healed within 24 h. Animal experiments were approved by the Ethics Committee of Beijing Institute of Radiation Medicine, Academy of Military Medical and the experiments were conducted in accordance with relevant guidelines and regulations. Ocular minimally invasive dissolving microneedles have the advantages of corneal minimal wounds and rapid healing, high drug loading, and high permeability, favoring the treatment of ocular diseases.

Compared with crystalline drugs, their amorphous forms present long-range disordered molecular arrangements, and often exhibit higher apparent solubility and dissolution. However, several small molecule amorphous drugs may exhibit gelation phenomenon during the dissolution process, and show abnormal dissolution behavior with significantly lower dissolution than crystalline drugs. The current study aims to discover the relationship between the gelation of amorphous drugs and their abnormal dissolution, and further explore the internal gelation mechanism. Amorphous simvastatin (SIM), carvedilol (CAR), and irbesartan (IRB) were prepared by melt cooling method and characterized via X-ray powder diffraction (XRPD), differential scanning calorimetry (DSC), and Fourier transform infrared spectroscopy (FT-IR). Gel formation causes the dissolution of these three amorphous drugs to be significantly lower than their crystalline state. The formed gels were characterized as three-dimensional dense network structures by scanning electron microscope (SEM). Furthermore, amorphous SIM, CAR and IRB showed the critical gel temperature at 8-15℃, 25-30℃ and 45-50℃, and amorphous CAR and IRB showed the critical gel pH at 1 and 0.25. The mechanism of gel formation was proposed to be closely related to the transformation of amorphous drugs into the supercooled liquid state (as the important driving force) and the protonation induced self-assembling under acidic conditions. In addition, the wettability and properties of amorphous drugs also affect the formation of gelation.

The article was to study the effect of local photodynamics therapy combined with carbon dioxide lattice laser-"light needles" for the treatment of basal cell carcinoma (BCC). 5-Aminolevulinic acid (5-ALA) cubic liquid crystal using glyceryl monostearate (GMO) as the substrate was prepared. The cytotoxicity of 5-ALA cubic liquid crystal combined with light needles in vitro were evaluated. The pharmacodynamics study of 5-ALA cubic liquid crystal combined with light needles of high or low energy for BCC was carried out based on the pathological changes, tumor volume, vascular endothelial growth factor (VEGF) expression and the recurrence rate, which has been approved by the Ethics Committee of Beijing Institute of Radiation Medicine. The cubic liquid crystal was isotropic with the lattice of PN3M. The cytotoxicity of 5-ALA cubic liquid crystal combined with light needles was much higher than that of 5-ALA or light needles alone. Compared with light needles or photodynamic therapy alone, 5-ALA cubic liquid crystal combined with light needles of high energy could prevent the BCC metastasis and of low energy could inhibit BCC growth. It demonstrated the obvious therapeutical effects for BCC. 5-ALA cubic liquid crystal combined with light needles can effectively treat BCC, which provides a new choice for clinical BCC treatment.

In order to provide a scientific basis for the establishment of a Daphnes Cortex medicinal material fungus library and the screening of endophytic fungi that promote the growth of Daphnes Cortex and increase the content of daphnetin, we used Illumina high-throughput testing technology to analyze 9 Daphnes Cortex samples from Gansu and Shanxi provinces. A total of 632 766 valid sequences were obtained, including 348 OTUs, 4 phyla, 20 classes, 48 orders, 108 families, 154 genera, and 208 species. The sum of the first 3 fungal genera account for more than 65% of the total abundance, with the highest reaching 98.4%. Alternaria and Phoma are the main genuses of Daphne giraldii Nitsche, and Altemaria is the dominant genus. The endophytic fungi community of Daphnes Cortex is rich in diversity, and the order of fungal diversity in different producing areas is: Gangu County > Wutai County > Tanchang County.

Although the guiding principles for molecular identification of traditional Chinese medicines (TCM) using DNA barcoding have been recorded in the Chinese Pharmacopoeia, there is still a lack of systematic research on its application to commercial TCM decoctions. In this study, a total of 212 commercial TCM decoctions derived from different medicinal parts such as root and rhizome, fruit and seed, herb, flower, leaf, cortex, and caulis were collected to verify applicability and accuracy of the method. DNA barcodes were successfully obtained from 75.9% (161/212) of the samples, while other samples failed to be amplified due to genomic DNA degradation. Among the 161 samples, 85.7% of them were identified as recorded species in the Chinese Pharmacopoeia (2020 edition). In addition, 14 samples could be identified as species recorded in the Chinese Pharmacopoeia and their closely related species in the same genus. Morphological identification for the unconfirmed samples showed that eight were genuine species and three were adulterants, while the other three were unidentifiable due to lack of morphological characteristics. Furthermore, the DNA barcodes of seven samples accurately mapped to the sequences of adulterants. Remarkably, counterfeit products were detected in two samples. These results demonstrate that DNA barcoding is suitable for the identification of commercial TCM decoctions. The method can effectively detect adulterants and is appropriate for use throughout the industrial chain of TCM production and distribution, and by the supervisory agencies as well.