Intranasal Morphology Transformation Nanomedicines for Long-Term Intervention of Allergic Rhinitis.

Intranasal administration has been widely explored as a potential treatment for allergic rhinitis, and improving intranasal penetration and retention of drugs is a challenging requirement to further improve efficacy. Delivery strategies of nanocarriers that enhance mucosal adhesion or mucus penetration have been proposed to improve nasal drug delivery; however, delivery efficiency remains limited by excessive pulmonary deposition and nonspecific cell phagocytosis. In this work, a "nasal assembly" strategy was presented to construct intranasal morphology transformation nanomedicines with enhanced effective drug concentration for long-term intervention of allergic rhinitis.

Biomimetic nanoparticles for DC vaccination: a versatile approach to boost cancer immunotherapy.

Cancer immunotherapy, which harnesses the immune system to fight cancer, has begun to make a breakthrough in clinical applications. Dendritic cells (DCs) are the bridge linking innate and adaptive immunity and the trigger of tumor immune response. Considering the cumbersome process and poor efficacy of classic DC vaccines, there has been interest in transferring the field of -generated DC vaccines to nanovaccines.

Bridging nanoplatform and vaccine delivery, a landscape of strategy to enhance nasal immunity.

Vaccination is an urgently needed and effective option to address epidemic, cancers, allergies, and other diseases. Nasal administration of vaccines offers many benefits over needle-based injection including high compliance and less risk of infection. Inactivated or attenuated vaccines as convention vaccine present potential risks of pathogenic virulence reversal, the focus of nasal vaccine development has shifted to the use of next-generation (subunit and nucleic acid) vaccines.

Reshaping hypoxia and silencing CD73 via biomimetic gelatin nanotherapeutics to boost immunotherapy.

The ubiquitous hypoxic microenvironment at the tumor site helps to regulate hypoxic inducible factor (HIF-1α), up-regulate downstream CD73-adenosine (CD73-ADO) pathways, and further result in effector T cell function exhaustion, which is regarded as a crucial adverse factor in the poor clinical efficacy of immune checkpoint blockade therapy (ICB). How to reshape hypoxic microenvironment and silence CD73 remains a huge challenge to improve ICB therapeutic outcomes. In this study, cancer cell membrane-camouflaged gelatin nanoparticles (CSG@B16F10) were designed to co-deliver oxygen-generating agent catalase (CAT) and CD73siRNA, thus enhancing tumor oxygenation and alleviating CD73-ADO pathway-mediated T cell immunosuppression.

Bridging micro/nano-platform and airway allergy intervention.

Allergic airway diseases, with incidence augmenting visibly as industrial development and environmental degradation, are characterized by sneezing, itching, wheezing, chest tightness, airway obstruction, and hyperresponsiveness. Current medical modalities attempt to combat these symptoms mostly by small molecule chemotherapeutants, such as corticosteroids, antihistamines, etc., via intranasal approach which is one of the most noninvasive, rapid-absorbed, and patient-friendly routes.