Sphingolipids serve as building blocks of membranes to ensure subcellular compartmentalization and facilitate intercellular communication. How cell type-specific lipid compositions are achieved and what is their functional significance in tissue morphogenesis and maintenance has remained unclear. Here, we identify a stem cell-specific role for ceramide synthase 4 (CerS4) in orchestrating fate decisions in skin epidermis. Deletion of CerS4 prevents the proper development of the adult hair follicle bulge stem cell (HFSC) compartment due to altered differentiation trajectories. Mechanistically, HFSC differentiation defects arise from an imbalance of key ceramides and their derivate sphingolipids, resulting in hyperactivation of noncanonical Wnt signaling. This impaired HFSC compartment establishment leads to disruption of hair follicle architecture and skin barrier function, ultimately triggering a T helper cell 2-dominated immune infiltration resembling human atopic dermatitis. This work uncovers a fundamental role for a cell state-specific sphingolipid profile in stem cell homeostasis and in maintaining an intact skin barrier.
© 2025 Peters et al.

Brain metastases (BrMs) are the leading cause of death in patients with solid cancers. BrMs exhibit a highly immunosuppressive milieu and poor response to immunotherapies; however, the underlying mechanism remains largely unclear. Here, we show that upregulation of HSP47 in tumor cells drives metastatic colonization and outgrowth in the brain by creating an immunosuppressive microenvironment. HSP47-mediated collagen deposition in the metastatic niche promotes microglial polarization to the M2 phenotype via the α2β1 integrin/nuclear factor κB pathway, which upregulates the anti-inflammatory cytokines and represses CD8+ T cell anti-tumor responses. Depletion of microglia reverses HSP47-induced inactivation of CD8+ T cells and abolishes BrM. Col003, an inhibitor disrupting HSP47-collagen association restores an anti-tumor immunity and enhances the efficacy of anti-PD-L1 immunotherapy in BrM-bearing mice. Our study supports that HSP47 is a critical determinant of M2 microglial polarization and immunosuppression and that blocking the HSP47-collagen axis represents a promising therapeutic strategy against brain metastatic tumors.
Copyright © 2024 The Author(s). Published by Elsevier Inc. All rights reserved.

Background: Alzheimer's Disease (AD) is a neuropathological condition marked by cognitive deterioration and chronic neuroinflammation. Previous investigations have unveiled a strong correlation between the gut microbiota and the progression of AD. In this study, our objective is to probe the effects of Parabacteroides distasonis ( P.distasonis ), previously found to be conspicuously diminished in AD patients, on the APP/PS1 mice model. Methods: : To assess the impact of orally administered P.distasonis on gut microbiota and metabolites, we utilized 16s rDNA sequencing and GC-MS to analyze gut composition and short-chain fatty acids in APP/PS1 mice after one month of P.distasonis gavage. To investigate the effects of P.distasonis administration over a six-month period on APP/PS1 mice, we evaluated cognitive function using novel object recognition and Y-maze tests, assessed intestinal barrier integrity and AD-related pathological features with immunofluorescence, and analyzed immune cell subpopulations in intestine, blood, spleen, and brain tissues via flow cytometry. The Luminex assay was employed to detect inflammatory cytokine secretion in the same regions. Results: : One-month oral administration of P.distasonis modulated the gut microbiota, elevated butyrate levels. Six-month oral administration of P.distasonis improved cognitive function in APP/PS1 mice, reducing Aβ deposition and inhibiting glial cell proliferation. It also amplified Treg cells within the gut, concomitant with the decreased Th1 proliferation and intestinal inflammation. Additionally, we observed the migration of peripheral CD4 + T cells to the brain through chemotaxis, accompanied by an increase in Treg cells and higher levels of anti-inflammatory factors such as IL-10 and TGF-β in the brain. Collectively, these multifaceted effects contributed to the alleviation of neuroinflammation. Conclusion: These findings underscore the potential of transplanting P.distasonis in alleviating AD-related pathology, suggesting a role for gut microbiota in neuroinflammation attenuation.

Bioactive sphingolipids serve as an essential building block of membranes, forming a selective barrier that ensures subcellular compartmentalization and facilitates cell type-specific intercellular communication through regulation of the plasma membrane receptor repertoire. How cell type-specific lipid compositions are achieved and what is their functional significance in tissue morphogenesis and maintenance has remained unclear. Here, we identify a stem-cell specific role for ceramide synthase 4 (CerS4) in orchestrating fate decisions in skin epidermis. Deletion of CerS4 in the epidermis prevents the effective development of the adult hair follicle bulge stem cell (HFSCs) niche due to altered differentiation trajectories of HFSC precursors towards upper hair follicle and inner bulge fates. Mechanistically, HFSC differentiation defects arise from an imbalance of key ceramides and their derivate sphingolipids in HFSCs associated with hyperactivity of canonical Wnt signaling. Impaired HFSC niche establishment leads to disruption of hair follicle architecture and hair follicle barrier function, ultimately triggering a T helper cell 2 - dominated immune infiltration closely resembling human atopic dermatitis. This work uncovers a fundamental role for a cell state-specific sphingolipid profile in epidermal stem cell homeostasis and the role of an intact stem cell niche in maintaining an intact skin barrier.

Immunosenescence refers to the multifaceted and profound alterations in the immune system brought about by aging, exerting complex influences on the pathophysiological processes of diseases that manifest upon it. Using a combination of single-cell RNA sequencing, cytometry by time of flight, and various immunological assays, we investigated the characteristics of immunosenescence in the peripheral blood of aged mice and its impact on the cerebral immune environment after ischemic stroke. Our results revealed some features of immunosenescence. We observed an increase in neutrophil counts, concurrent with accelerated neutrophil aging, characterized by altered expression of aging-associated markers like CD62L and consequential changes in neutrophil-mediated immune functions. Monocytes/macrophages in aged mice exhibited enhanced antigen-presentation capabilities. T cell profiles shifted from naive to effector or memory states, with a specific rise in T helper 1 cells and T helper 17 cells subpopulations and increased regulatory T cell activation in CD4 T cells. Furthermore, regulatory CD8 T cells marked by Klra decreased with aging, while a subpopulation of exhausted-like CD8 T cells expanded, retaining potent immunostimulatory and proinflammatory functions. Critically, these inherent disparities not only persisted but were further amplified within the ischemic hemispheres following stroke. In summary, our comprehensive insights into the key attributes of peripheral immunosenescence provide a vital theoretical foundation for understanding not only ischemic strokes but also other age-associated diseases.
Copyright © 2023 Jianan Lu et al.