Lipogenesis is often highly upregulated in breast cancer brain metastases to adapt to intracranial low lipid microenvironments.Lipase inhibitors hold therapeutic potential but their intra-tumoral distribution is often...Lipogenesis is often highly upregulated in breast cancer brain metastases to adapt to intracranial low lipid microenvironments.Lipase inhibitors hold therapeutic potential but their intra-tumoral distribution is often blocked by the blood-tumor barrier(BTB).BTB activates its Wnt signaling to maintain barrier properties,e.g.,Mfsd2a-mediated BTB low transcytosis.Here,we reported VCAM-1-targeting nano-wogonin(W@V-NPs)as an adjuvant of nano-orlistat(O@V-NPs)to intensify drug delivery and inhibit lipogenesis of brain metastases.W@V-NPs were proven to be able to inactivate BTB Wnt signaling,downregulate BTB Mfsd2a,accelerate BTB vesicular transport,and enhance tumor accumulation of O@V-NPs.With the ability to specifically kill cancer cells in a lipid-deprived environment with IC_(50) at 48 ng/mL,W@V-NPs plus O@V-NPs inhibited the progression of brain metastases with prolonged survival of model mice.The combination did not induce brain edema,cognitive impairment,and systemic toxicity in healthy mice.Targeting Wnt signaling could safely modulate the BTB to improve drug delivery and metabolic therapy against brain metastases.展开更多
基金supported by the National Natural Science Foundation of China(32171381 and 81973254)the National Innovation of Science and Technology-2030(Program of Brain Science and Brain-Inspired Intelligence Technology)grant(2021ZD0204004,China)+1 种基金Jiangsu Key Laboratory of Neuropsychiatric Diseases Research Major Program(No.ZZ2101,China)the Priority Academic Program Development of the Jiangsu Higher Education Institutes(PAPD),Suzhou International Joint Laboratory for Diagnosis and Treatment of Brain Diseases,and the Suzhou Science and Technology Development Project(No.SJC2022021,China).
文摘Lipogenesis is often highly upregulated in breast cancer brain metastases to adapt to intracranial low lipid microenvironments.Lipase inhibitors hold therapeutic potential but their intra-tumoral distribution is often blocked by the blood-tumor barrier(BTB).BTB activates its Wnt signaling to maintain barrier properties,e.g.,Mfsd2a-mediated BTB low transcytosis.Here,we reported VCAM-1-targeting nano-wogonin(W@V-NPs)as an adjuvant of nano-orlistat(O@V-NPs)to intensify drug delivery and inhibit lipogenesis of brain metastases.W@V-NPs were proven to be able to inactivate BTB Wnt signaling,downregulate BTB Mfsd2a,accelerate BTB vesicular transport,and enhance tumor accumulation of O@V-NPs.With the ability to specifically kill cancer cells in a lipid-deprived environment with IC_(50) at 48 ng/mL,W@V-NPs plus O@V-NPs inhibited the progression of brain metastases with prolonged survival of model mice.The combination did not induce brain edema,cognitive impairment,and systemic toxicity in healthy mice.Targeting Wnt signaling could safely modulate the BTB to improve drug delivery and metabolic therapy against brain metastases.
