Characterizing the tumor microenvironment at the single-cell level reveals a novel immune evasion mechanism in osteosarcoma

The immune microenvironment extensively participates in tumorigenesis as well as progression in osteosarcoma(OS).However,the landscape and dynamics of immune cells in OS are poorly characterized.By analyzing single-cell RNA sequencing(sc RNA-seq)data,which characterize the transcription state at single-cell resolution,we produced an atlas of the immune microenvironment in OS.The results suggested that a cluster of regulatory dendritic cells(DCs)might shape the immunosuppressive microenvironment in OS by recruiting regulatory T cells.We also found that major histocompatibility complex class I(MHC-I)molecules were downregulated in cancer cells.The findings indicated a reduction in tumor immunogenicity in OS,which can be a potential mechanism of tumor immune escape.Of note,CD24 was identified as a novel“don’t eat me”signal that contributed to the immune evasion of OS cells.Altogether,our findings provide insights into the immune landscape of OS,suggesting that myeloid-targeted immunotherapy could be a promising approach to treat OS.

Traumatic brain injury stimulates sympathetic tone-mediated bone marrow myelopoiesis to favor fracture healing

Traumatic brain injury(TBI)accelerates fracture healing,but the underlying mechanism remains largely unknown.Accumulating evidence indicates that the central nervous system(CNS)plays a pivotal role in regulating immune system and skeletal homeostasis.However,the impact of CNS injury on hematopoiesis commitment was overlooked.Here,we found that the dramatically elevated sympathetic tone accompanied with TBI-accelerated fracture healing;chemical sympathectomy blocks TBIinduced fracture healing.TBI-induced hypersensitivity of adrenergic signaling promotes the proliferation of bone marrow hematopoietic stem cells(HSCs)and swiftly skews HSCs toward anti-inflammation myeloid cells within 14 days,which favor fracture healing.Knockout ofβ3-orβ2-adrenergic receptor(AR)eliminate TBI-mediated anti-inflammation macrophage expansion and TBIaccelerated fracture healing.RNA sequencing of bone marrow cells revealed that Adrb2 and Adrb3 maintain proliferation and commitment of immune cells.Importantly,flow cytometry confirmed that deletion ofβ2-AR inhibits M2 polarization of macrophages at 7th day and 14th day;and TBI-induced HSCs proliferation was impaired inβ3-AR knockout mice.Moreover,β3-andβ2-AR agonists synergistically promote infiltration of M2 macrophages in callus and accelerate bone healing process.Thus,we conclude that TBI accelerates bone formation during early stage of fracture healing process by shaping the anti-inflammation environment in the bone marrow.These results implicate that the adrenergic signals could serve as potential targets for fracture management.