Targeting the PTP1B-Bcr-Abl1 interaction for the degradation of T315I mutant Bcr-Abl1 in chronic myeloid leukemia.

Small-molecule-induced degradation of mutant Bcr-Abl1 provides a potential approach to overcome Bcr-Abl1 tyrosine kinase inhibitor (TKI)-resistant chronic myeloid leukemia (CML). Our previous study reported that a synthetic steroidal glycoside SBF-1 showed remarkable anti-CML activity by inducing the degradation of native Bcr-Abl1 protein. Here, we observed the comparable growth inhibition for SBF-1 in CML cells harboring T315I mutant Bcr-Abl1 in vitro and in vivo. SBF-1 triggered its degradation through disrupting the interaction between protein-tyrosine phosphatase 1B (PTP1B) and Bcr-Abl1. Using SBF-1 as a tool, we found that Tyr46 in the PTP1B catalytic domain and Tyr852 in the Bcr-Abl1 pleckstrin-homology (PH) domain are critical for their interaction. Moreover, the phosphorylation of Tyr1086 within the Bcr-Abl1 SH2 domain recruited the E3 ubiquitin ligase c-Cbl to catalyze K27-linked ubiquitin chains, which serve as a recognition signal for p62-dependent autophagic degradation. PTP1B dephosphorylated Bcr-Abl1 at Tyr1086 and prevented the recruitment of c-Cbl, leading to the stability of Bcr-Abl1. This study unravels the action mechanism of PTP1B in stabilizing Bcr-Abl1 protein and indicates that the PTP1B-Bcr-Abl1 interaction might be one of druggable targets for TKI-resistant CML with point mutations.

Development of an Analytical Method Based on Temperature Controlled Solid-Liquid Extraction Using an Ionic Liquid as Solid Solvent.

At the present paper, an analytical method based on temperature controlled solid-liquid extraction (TC-SLE) utilizing a synthesized ionic liquid, (N-butylpyridinium hexafluorophosphate, [BPy]PF6), as solid solvent and phenanthroline (PT) as an extractant was developed to determine micro levels of Fe(2+) in tea by PT spectrophotometry. TC-SLE was carried out in two continuous steps: Fe(2+) can be completely extracted by PT-[BPy]PF6 or back-extracted at 80 °C and the two phases were separated automatically by cooling to room temperature. Fe(2+), after back-extraction, needs 2 mol/L HNO3 as stripping agent and the whole process was determined by PT spectrophotometry at room temperature. The extracted species was neutral Fe(PT)mCl2 (m = 1) according to slope analysis in the Fe(2+)-[BPy]PF6-PT TC-SLE system. The calibration curve was Y = 0.20856X - 0.000775 (correlation coefficient = 0.99991). The linear calibration range was 0.10-4.50 µg/mL and the limit of detection for Fe(2+) is 7.0 × 10(-2) µg/mL. In this method, the contents of Fe(2+) in Tieguanyin tea were determined with RSDs (n = 5) 3.05% and recoveries in range of 90.6%-108.6%.

What Are the Barriers Impeding Female Graduates in Higher Education from Pursuing Entrepreneurship in China? An Investigation from a Theory of Planned Behaviour Perspective.

This study investigates the obstacles encountered by female graduates in China's higher education system when considering entrepreneurship by employing the Theory of Planned Behaviour as an analytical framework. Although entrepreneurship is widely acknowledged as crucial for economic and personal growth, gender inequalities remain, with women being severely underrepresented. The primary objective of this study is to gain insight into the underlying reasons behind the reluctance of female university students, specifically in China, to pursue entrepreneurial ventures. In this study, we conducted 30 semi-structured interviews with female university students from different majors to identify the key barriers that discourage them from starting their businesses. The factors discovered are instrumental and affective attitudes towards entrepreneurship, subjective norms (family, friends, teachers, and others), and perceived behavioural control (encompassing past experiences, second-hand information, and anticipated obstacles). The results showed that a conservative familial atmosphere, risk-averse cultural norms, and limited access to helpful resources and experiences in universities are major obstacles. This study enriches the present knowledge by providing a detailed explanation of the gender-specific obstacles in entrepreneurship in the Chinese context. It proposes that interventions at the educational and governmental levels are imperative to promote female entrepreneurship.

Breast cancer cells have an increased ferroptosis risk induced by system xc- blockade after deliberately downregulating CYTL1 to mediate malignancy.

Cytokine-like protein 1 (CYTL1) expression is deliberately downregulated during the progression of multiple types of cancers, especially breast cancer. However, the metabolic characteristics of cancer progression remain unclear. Here, we uncovered a risk of breast cancer cells harboring low CYTL1 expression, which is metabolically controlled during malignant progression. We performed metabolism comparison and revealed that breast cancer cells with low CYTL1 expression have highly suppressed transsulfuration activity that is driven by cystathionine ß-synthase (CBS) and contributes to de novo cysteine synthesis. Mechanistically, CYTL1 activated Nrf2 by promoting autophagic Keap1 degradation, and Nrf2 subsequently transactivated CBS expression. Due to the lack of cellular cysteine synthesis, breast cancer cells with low CYTL1 expression showed hypersensitivity to system xc- blockade-induced ferroptosis in vitro and in vivo. Silencing CBS counteracted CYTL1-mediated ferroptosis resistance. Our results show the importance of exogeneous cysteine in breast cancer cells with low CYTL1 expression and highlight a potential metabolic vulnerability to target.

Indolocarbazole alkaloid Loonamycin A inhibits triple-negative breast cancer cell stemness and Notch signalling.

OBJECTIVES: Enrichment for therapy-resistant cancer stem cells hampers the treatment of triple-negative breast cancer. Targeting these cells via suppression of Notch signalling can be a potential therapeutic strategy. This study aimed to uncover the mode of action of a new indolocarbazole alkaloid loonamycin A against this incurable disease. METHODS: The anticancer effects were examined in triple-negative breast cancer cells using in vitro methods, including cell viability and proliferation assays, wound-healing assay, flow cytometry and mammosphere formation assay. RNA-seq technology was used to analyse the gene expression profiles in loonamycin A-treated cells. Real-time RT-PCR and western blot were to evaluate the inhibition of Notch signalling. KEY FINDINGS: Loonamycin A has stronger cytotoxicity than its structural analog rebeccamycin. Besides inhibiting cell proliferation and migration, loonamycin A reduced CD44high/CD24low/- sub-population, mammosphere formation, as well as the expression of stemness-associated genes. Co-administration of loonamycin A enhanced antitumour effects of paclitaxel by inducing apoptosis. RNA sequencing results showed that loonamycin A treatment caused the inhibition of Notch signalling, accompanied by the decreased expression of Notch1 and its targeted genes. CONCLUSIONS: These results reveal a novel bioactivity of indolocarbazole-type alkaloids and provide a promising Notch-inhibiting small molecular candidate for triple-negative breast cancer therapy.