Environmental Low-Dose Radiation Activates Th1 Immunity through the Mitochondria-STING Pathway.

The presence of low-dose radiation (LDR) in the environment has become more prevalent. However, the effect of LDR exposure on the immune system remains elusive. Here, we interestingly found that LDR specifically elevated the percentage of CD4IFNγ Th1 splenocytes, both in vitro and in vivo, without affecting the percentage of CD8IFNγ Tc1 cells and regulatory T cells.

Disturbing microtubule-endoplasmic reticulum dynamics by gold nanoclusters for improved triple-negative breast cancer treatment.

Microtubules are highly dynamic structures, and their dynamic instability is indispensable for not only cell growth and movement, but also stress responses, such as endoplasmic reticulum (ER) stress. Docetaxel, a microtubule targeting agent (MTA), is the first-line drug for cancer treatment by simultaneously promoting microtubule dysregulation- and ER stress-induced cell death. However, it also causes adverse effects and drug resistance, especially in triple-negative breast cancer (TNBC) with a poor prognosis and high mortality rate.

Induction of Non-Canonical Ferroptosis by Targeting Clusters Suppresses Glioblastoma.

Glioblastoma multiforme (GBM) is the most aggressive brain tumor. There is a pressing need to develop novel treatment strategies due to the poor targeting effect of current therapeutics. Here, a gold cluster coated with optimized GBM-targeting peptide is engineered, namely NA.

Eco-friendly chitosan microspheres as a novel one-step sorbent for the rapid purification and determination of pesticides and veterinary drug multi-residues in aquatic products with HPLC-MS/MS.

A modified QuEChERS method was developed to determine multi-class pesticide and veterinary residues in aquatic products. Chitosan microspheres were conveniently synthesized and utilized as the cleanup adsorbent in the QuEChERS procedure, showcasing rapid filtration one-step pretreatment ability for the determination of drug multi-residues in aquatic products. Compared to conventional synthetic sorbents, chitosan microspheres not only have good purification performance, but also have renewable and degradable properties.

[Preparation of a macroporous anion exchange chromatographic medium by polyamine grafting and evaluation of its protein-adsorption behavior].

The macroporous anion exchange chromatographic medium (FastSep-PAA) was prepared through grafting polyallylamine (PAA) onto polyacrylate macroporous microspheres (FastSep-epoxy). The effects of the synthesis conditions, including the PAA concentration, reaction time, and reaction solution pH, on the ion exchange (IC) of the medium were investigated in detail. When the PAA concentration, reaction time, and reaction solution pH were increased, the IC of the medium increased, and optimal synthesis conditions were then selected in combination with changes of protein binding capacity.

One step cleanup of 160 pesticides and veterinary drugs in aquatic products using melamine-based automatic pressure filtration purification method combined with HPLC-MS/MS.

A 15-channel pressure filtration purification method was presented for high throughput sample preparation of aquatic products. A cost-effective device was constructed and melamine sponge was selected as the cleanup sorbent. Upon interfacing with HPLC-MS/MS, the analytical procedure demonstrated its suitability for quantifying 160 pesticides and veterinary drug residues in aquatic products such as fish, shrimp, and crab.

Colon-Accumulated Gold Nanoclusters Alleviate Intestinal Inflammation and Prevent Secondary Colorectal Carcinogenesis via Nrf2-Dependent Macrophage Reprogramming.

Inflammatory bowel disease (IBD) is one of the main factors leading to colitis-associated colorectal cancer (CAC). Therefore, it is critical to develop an effective treatment for IBD to prevent secondary colorectal carcinogenesis. M2 macrophages play crucial roles in the resolution phase of intestinal inflammation.

RNA-cleaving DNAzymes for accurate biosensing and gene therapy.

RNA-cleaving DNAzymes, which are single-stranded catalytic DNA, have attracted considerable attention in bioanalysis and biomedical applications because of their high stability, high catalytic activity, easy synthesis, easy functionalization, and modification. By incorporating these DNAzymes with amplification systems, the sensing platforms can be used to detect a series of targets with high sensitivity and selectivity. In addition, these DNAyzmes possess therapeutic potential by cutting the mRNA in cells and viruses to regulate the expression of the corresponding proteins.

Biomineralized hydrogel DC vaccine for cancer immunotherapy: A boosting strategy via improving immunogenicity and reversing immune-inhibitory microenvironment.

The postoperative recurrence and metastasis of triple negative breast cancer (TNBC) remain one fatal reason for the failure of clinical treatments. Although the rise of immunotherapy has brought hopes for reducing postoperative recurrence and potential metastasis, the low immune response and immunosuppression of tumor microenvironment (TME) still restrain its extensive application. Herein, we reported a boosting strategy by improving immunogenicity and reversing suppressive TME to realize efficient immunotherapy of TNBC.

DNAzyme-Based nanoflowers for reversing P-glycoprotein-mediated multidrug resistance in breast cancer.

Multidrug resistance (MDR) of tumors has been recognized as an important cause of chemotherapy failure, which is responsible for about 90% of cancer deaths. Therefore, it is desirable to develop a highly effective strategy to reverse tumor MDR for rebuilding the sensitivity of tumor cells towards chemodrugs. Here, self-assembled DNAzyme nanoflowers (NFs) constructed by rolling circle amplification (RCA) strategy were applied in doxorubicin (Dox) delivery for efficiently ablating Dox-resistant breast cancer.

Photo-responsive hydrogel facilitates nutrition deprivation by an ambidextrous approach for preventing cancer recurrence and metastasis.

Postoperative recurrence at the primary site and distant metastasis remains the challenge in treating triple-negative breast cancer due to its unpredictable invasion into adjacent tissues. Although systemic chemotherapy has been extensively adopted to attenuate the recurrence and metastasis, the abundant nutrition supply by blood vessels would promote the rapid proliferation of tumor cells and angiogenesis. Herein, we reported a nutrition deprivation strategy by ambidextrously blocking the residual blood vessels and inhibiting angiogenesis to realize efficient treatment of triple-negative breast cancer.