Project description:Dynamic magneto-mechanical force in lysosomes instructs durable macrophage repolarization for antitumor immunity.

Project description:Macrophage plasticity allows cells to adopt different phenotypes, a property with potentially important implications in chronic pulmonary disorders such as cystic fibrosis (CF). We examined the transcriptional and functional significance of macrophage repolarization from an “M1” (LPS-stimulated) towards an “M2” phenotype using 5 stimuli. We found that macrophages exhibit highly diverse responses to distinct M2-polarizing stimuli. Specifically, we observed that IL-10 abrogated LPS-tolerance allowing for rapid restoration of LPS responsiveness. In contrast, IL-4 enhanced LPS-tolerance, dampening pro-inflammatory responses after repeat LPS challenge. We found enrichment of phagocytosis-associated pathways in macrophages stimulated with IL-10, leading them to display the greatest efferocytosis ability. Finally, we observed that CF macrophages had intact reparative responses, suggesting that macrophage contributions to CF lung disease are shaped by their environmental milieu and are modifiable. These findings highlight the diversity of macrophage activation states, attribute functional consequences to these stimuli, and provide a unique resource of human macrophage repolarization markers.

Project description:Dexamethasone drives macrophage repolarization linked to increased triple-negative breast cancer aggressiveness

Project description:Glucocorticoids (GCs) are known for their anti-inflammatory potential, which includes macrophage polarization into an anti-inflammatory and tissue remodeling state. GCs are routinely co-administered to cancer patients to alleviate the side effects of chemotherapy. However, it is not well known if GCs can modulate tumor-associated macrophages (TAMs) to promote tumor progression. Here, we show that dexamethasone (DEX) induces dose-dependent differentiation of THP-1 monocyte-derived anti-tumorigenic (M1) macrophages into pro-tumorigenic (M2-like) macrophages, even in the presence of M1 cues, and that DEX can repolarize fully differentiated M1 macrophages into an M2-like state. These macrophages have a cytokine profile similar to the pro-tumorigenic (M2) macrophages and can stimulate the proliferation and invasion of triple-negative breast cancer (TNBC) cells in vitro. DEX treatment of an orthotopic mouse model of TNBC attenuated paclitaxel-mediated tumor growth inhibition, increased M2-like TAMs in primary tumors, and enhanced lung metastasis. Transcriptomic analysis of DEX-treated M1 macrophages revealed not only transcriptomic overlap to M2 macrophages, but to human breast cancer TAM transcriptomic data and further to a specific TAM signature associated with aggressive estrogen receptor-negative breast cancer. Our study illustrates a remarkable macrophage repolarization plasticity upon DEX exposure and warrants care in prescribing high doses of GCs to breast cancer patients, especially to those considered for chemotherapy.

Project description:Repolarization of HSC attenuates HSCs failure in Shwachman-Diamond syndrome

Project description:Purpose: To understand compound effects on human macrophage repolarization in the transcriptional level

Project description:Growth hormone triggers inflammatory human macrophage repolarization

Project description:Skatole attenuates osteoarthritis by protecting chondrocytes and mediating macrophage repolarization through regulating the NFκB/MAPK signaling pathway and metabolic reprogramming

Project description:Using magneto-nanofection, iPS cells were efficiently generated by the transient expression of iPS genes in MEF (mouse embryonic fibroblast), suggesting that the non-viral magneto-nanofection method can be used for the efficient generation of iPS cells.

Project description:Transcriptional Dysregulation Underlies Both Monogenic Arrhythmia Syndrome and Common Modifiers of Cardiac Repolarization