Comparison of gefitinib-induced skin adverse reactions (SAR) in C57BL/6 and FVB/N mice

Improvement of classical therapy in EGFR inhibitors-induced cutaneous adverse reaction by microneedle delivery and Astragalus polysaccharide

EGFR (epidermal growth factor receptor) inhibitors, as the first-line drugs of targeted therapy, often cause additional distress for patients due to the induced cutaneous adverse reactions (EICAR), while classical therapies represented by topical minocycline and epidermal growth factor have limitations especially for exacerbating immune imbalance. Here, we used Astragalus polysaccharide (APS), which has modulatory effects on both the epidermis and the immune system, as an adjuvant drug to reduce EICAR and achieve immune balance. APS, combined with minocycline or epidermal growth factor, was delivered by dissolvable microneedles (MN), a novel drug delivery method that penetrates the stratum corneum to deliver the drug directly into the skin tissue. The results demonstrated that this therapy with the developed MN system not only restored local epidermal conditions, but also reestablished the balance of immune cells. Significantly, the addition of APS also promoted the alleviation of EICAR in non-treated areas, suggesting that local administration can result in systemic effects. The application of APS and the MN delivery system can provide new strategy for clinical treatment of EICAR and potential solutions for other skin diseases.

Traditional Chinese Medicine Formulae QY305 Reducing Cutaneous Adverse Reaction and Diarrhea by its Nanostructure

Traditional Chinese medicine (TCM) is widely used in clinical practice, including skin and gastrointestinal diseases. Here, a potential TCM QY305 (T-QY305) is reported that can modulate the recruitment of neutrophil in skin and colon tissue thus reducing cutaneous adverse reaction and diarrhea induced by epidermal growth factor receptor inhibitors (EGFRIs). On another hand, the T-QY305 formula, through regulating neutrophil recruitment features would highlight the presence of N-QY305, a subunit nanostructure contained in T-QY305, and confirm its role as potentially being the biomaterial conferring to T-QY305 its pharmacodynamic features. Here, the clinical records of two patients are analyzed expressing cutaneous adverse reaction and demonstrate positive effect of T-QY305 on the simultaneous inhibition of both cutaneous adverse reaction and diarrhea in animal models. The satisfying results obtained from T-QY305, lead to further process to the isolation of N-QY305 from T-QY305, in order to demonstrate that the potency of T-QY305 originates from the nanostructure N-QY305. Compared to T-QY305, N-QY305 exhibits higher potency upon reducing adverse reactions. The data represent a promising candidate for reducing cutaneous adverse reaction and diarrhea, meanwhile proposing a new strategy to highlight the presence of nanostructures being the "King" of Chinese medicine formula as the pharmacodynamic basis.

Adverse Effects of Gefitinib on Skin and Colon in a Lung Cancer Mouse Model

BACKGROUND

Gefitinib, an Epidermal Growth Factor Receptor Tyrosine Kinase Inhibitor (EGFR-TKI), frequently causes side effects when used to treat non-small cell lung cancer.

OBJECTIVE

The purpose of this experiment was to investigate the side effect of gefitinib on the skin and colon of mice.

METHODS

Male Balb/c nu-nu nude mice aged 4-5 weeks were used as xenograft tumor models, and gefitinib at 150 mg/kg and 225 mg/kg was started at 9 days after the xenograft tumor grew out. The mice's weights and tumor volumes were tracked concurrently, and the mouse skin adverse reactions and diarrhea were observed during the treatment. The animal tissues were subjected to biochemical and pathological evaluations after 14 days.

RESULTS

Gefitinib effectively decreased the size and weight of transplanted tumors in nude mice, while also lowering body weight and raising indexes of the liver and spleen. Gefitinib could cause skin adverse reactions and diarrhea in mice. Further pathological investigation revealed tight junction- related markers in the mice's skin and colon to be reduced and macrophages and neutrophils to be increased after gefitinib treatment.

CONCLUSION

The findings imply that gefitinib has negative effects on the skin and colon. Gefitinib- induced skin and colon adverse reactions in mice have been successfully modeled in this study.

Nanostructures in Chinese herbal medicines (CHMs) for potential therapy

With its long clinical history, traditional Chinese medicine (TCM) has gained acceptance for its specific efficacy and safety in the treatment of multiple diseases. Nano-sized materials study of Chinese herbal medicines (CHMs) leads to an increased understanding of assessing TCM therapies, which may be a promising way to illustrate the material basis of CHMs through their processing and extraction. In this review, we provide an overview of the nanostructures of natural and engineered CHMs, including extracted CHMs, polymer nanoparticles, liposomes, micelles, and nanofibers. Subsequently, the applications of these CHM-derived nanostructures to particular diseases are summarized and discussed. Additionally, we discuss the advantages of these nanostructures for studying the therapeutic efficacy of CHMs. Finally, the key challenges and opportunities for the development of these nanostructures are outlined.