To evaluate the therapeutic effect of baicalein topical preparation on atopic dermatitis, we first constructed two atopic dermatitis-like mouse models induced by calcipotriol and 1-fluoro-2,4-dinitrobenzene to assess their therapeutic effect with skin tissue staining and other experiments. It was found that topical preparation of baicalein could alleviate epidermal thickening of diseased skin tissues, repair damaged skin barrier proteins, and inhibit T helper 2 cells (Th2) infiltration and mast cell infiltration and activation in lesional sites. Cyberpharmacology was utilized to analyze whether baicalein could treat atopic dermatitis by interfering with multiple pathogenesis-associated pathways. Results indicated that baicalein reduced the mRNA levels of inflammatory factors and inhibited the phosphorylation of NF-κB p65 and STAT1 proteins in keratinocyte cells. Together, the topical preparation of baicalein may be effective in alleviating atopic dermatitis-like symptoms in mice by down-regulating the phosphorylation level of NF-κB in keratinocytes, thereby decreasing the expression of inflammatory factors in keratinocytes, which provides an idea and a theoretical basis for the topical preparation of baicalein for the treatment of inflammatory skin diseases such as atopic dermatitis.

To investigate the effects of Wogonin (WO) on learning and memory impairment, Aβ1-42 was injected intracerebroventricularly to induced a mouse learning and memory impairment model, and D-galactose was injected intraperitoneally to induced a mouse acute aging model. Mice were administered WO (75, 150, or 300 mg/kg) by oral gavage for 28 consecutive days. Cognitive function was assessed using the Morris water maze (MWM), novel object recognition (NOR), and open field tests (OFT). In the Aβ1-42 model, WO treatment (150 and 300 mg/kg) significantly improved the recognition index in the NOR test, while the 150 mg/kg group showed increased target quadrant preference in the MWM test. No changes in the total distance traveled in OFT. In the D-galactose aging model, the 150 mg/kg WO group exhibited increased platform crossings in the MWM test, and all WO doses (75, 150, and 300 mg/kg) enhanced target quadrant preference, with no alterations in spontaneous movement. Western blot analysis revealed that WO significantly attenuated hippocampal apoptosis in both models. These findings suggest that WO ameliorates learning and memory impairment associated with Alzheimer’s disease and aging.

Given its state of stable proliferative inhibition, cellular senescence is primarily depicted as a critical mechanism by which organisms delay the progression of carcinogenesis. Cells undergoing senescence are often associated with the alteration of a series of specific features and functions, such as metabolic shifts, stemness induction, and microenvironment remodeling. However, recent research has revealed more complexity associated with senescence, including adverse effects on both physiological and pathological processes. How organisms evade these harmful consequences and survive has become an urgent research issue. Several therapeutic strategies targeting senescence, including senolytics, senomorphics, immunotherapy, and function restoration, have achieved initial success in certain scenarios. In this review, we describe in detail the characteristic changes associated with cellular senescence and summarize currently available countermeasures.
Humans ; Cellular Senescence ; Carcinogenesis ; Immunotherapy ; Aging ; Tumor Microenvironment

To explore the mechanisms by which AKR1C3 induces tumor resistance, human breast cancer cell strain MCF-7/DOX resistant to doxorubicin, MCF-7/ AKR1C3 cells for overexpression of AKR1C3 and MCF-7/DOX-KD cells for knockdown of AKR1C3 in MCF-7/DOX cells were established. Western blot analysis found that AKR1C3 was expressed at a higher level in MCF-7/DOX than MCF-7 wild type cells. Similarly, CCK-8 and DAPI confirmed that MCF-7/ AKR1C3 cells were more resistant to DOX than AKR1C3 wild types as the IC50 was increased 6 times in MCF-7/AKR1C3 cells more than in AKR1C3 wild type cells. Meanwhile, colony formation ability was also enhanced after AKR1C3 was over-expressed in MCF-7 cells.Cytoplasmic/nuclear separation analysis and IF further found that β-catenin nuclear translocation mediated by AKR1C3 was the main reason contributing to the occurrence of DOX-resistant breast cancer cells. β-catenin inhibitor, XAV939, could reverse the AKR1C3 induced doxorubicin resistance in MCF-7 cells.Results indicated that AKR1C3 could be a potential therapeutic target in breast cancer cells.

Models of acute and chronic liver injury in mice were established using carbon tetrachloride (CCl4) and ethanol to explore the protective effects of Ganoderma lucidum spore glycopeptide on liver injury.Different dosage of Ganoderma lucidum spore glycopeptide (65,130,260 mg/kg) were given by gavage.The liver index and the levels of serum aspartate transaminase (AST) and alanine transaminase (ALT) were determined.The contents of liver interleukin-6 (IL-6), tumor necrosis factor (TNF-α) and inducible nitric oxide synthase (iNOS) were tested by enzyme-linked immunosorbent assay (ELISA).The pathological injury of liver tissue was observed by HE staining.The results showed that Ganoderma lucidum spore glycopeptide could significantly reduce the liver index and the contents of serum AST and ALT in mice of acute and chronic liver injury.In mice of chronic liver injury induced by CCl4, Ganoderma lucidum spore glycopeptide could significantly decrease the contents of liver IL-6, TNF-α and iNOS, and alleviate the pathological damage of liver tissue.Results suggested that Ganoderma lucidum spore glycopeptide might reduce acute and chronic liver injury with anti-inflammatory effects in mice.

The integrity of lysosomes is of vital importance to survival of tumor cells. We demonstrated that LW-218, a synthetic flavonoid, induced rapid lysosomal enlargement accompanied with lysosomal membrane permeabilization in hematological malignancy. LW-218-induced lysosomal damage and lysosome-dependent cell death were mediated by cathepsin D, as the lysosomal damage and cell apoptosis could be suppressed by depletion of cathepsin D or lysosome alkalization agents, which can alter the activity of cathepsins. Lysophagy, was initiated for cell self-rescue after LW-218 treatment and correlated with calcium release and nuclei translocation of transcription factor EB. LW-218 treatment enhanced the expression of autophagy-related genes which could be inhibited by intracellular calcium chelator. Sustained exposure to LW-218 exhausted the lysosomal capacity so as to repress the normal autophagy. LW-218-induced enlargement and damage of lysosomes were triggered by abnormal cholesterol deposition on lysosome membrane which caused by interaction between LW-218 and NPC intracellular cholesterol transporter 1. Moreover, LW-218 inhibited the leukemia cell growth

Prostate cancer is one of the most common cancers in adult men. Heat shock proteins (HSPs),as molecular chaperones widely involved in the pathogenesis,diagnosis,treatment and prognosis of various cancers,play crucial biological functions in prostate cancer and it can be considered as valuable biomarkers for cancer therapy, such as prostate-specific membrane antigen. As a member of the heat shock protein family, HSP27 is related to prostate cancer castration resistance,and its expression can promote tumor resistance,invasion and bone metastasis,making prostate cancer more invulnerable to treatments. Therefore,targeting HSP27 in prostate cancer can be perceived as one promising cancer treatment strategy. This article reviews the structure and function of HSP27,and its potential role on castration resistance and targeted therapy in order to provide a new theoretical basis for the clinical treatment of prostate cancer.

Src family kinase (SFK) highly expresses in many types of cancers,broadly adjusting their malignant behaviors.Paclitaxel is a widely used chemical agent.However,because of constant resistance,the effect of paclitaxel has been greatly attenuated.The present review summaries the recent research progress of the structure and adjustment of SFK and the molecular mechanism of paclitaxel resistance,as well as the regulation of SFK on paclitaxel resistance,in order to provide new references and evidences upon the paclitaxel-based tumor therapy.