As the indispensable second cellular messenger,calcium signaling is involved in the regulation of almost all physiological pro-cesses by activating specific target proteins.The importance of calcium ions(Ca2+)makes its"Janus nature"strictly regulated by its concentra-tion.Abnormal regulation of calcium signals may cause some diseases;however,artificial regulation of calcium homeostasis in local lesions may also play a therapeutic role."Calcium overload,"for example,is characterized by excessive enrichment of intracellular Ca2+,which irreversibly switches calcium signaling from"positive regulation"to"reverse destruction,"leading to cell death.However,this undesirable death could be defined as"calcicoptosis"to offer a novel approach for cancer treatment.Indeed,Ca2+is involved in various cancer diagnostic and therapeutic events,including calcium overload-induced calcium homeostasis disorder,calcium channels dysregulation,mitochondrial dysfunction,calcium-associated immunoregulation,cell/vascular/tumor calcification,and calcification-mediated CT imaging.In paral-lel,the development of multifunctional calcium-based nanomaterials(e.g.,calcium phosphate,calcium carbonate,calcium peroxide,and hydroxyapatite)is becoming abundantly available.This review will highlight the latest insights of the calcium-based nanomaterials,explain their application,and provide novel perspective.Identifying and characterizing new patterns of calcium-dependent signaling and exploiting the disease element linkage offer additional translational opportunities for cancer theranostics.

Shuang Bai;Yulu Lan;Shiying Fu;Hongwei Cheng;Zhixiang Lu;Gang Liu

State Key Laboratory of Molecular Vaccinology and Molecular Diagnostics,Center for Molecular Imaging and Translational Medicine,School of Public Health,Xiamen University,Xiamen 361102,People's Republic of China;State Key Laboratory of Cellular Stress Biology,Innovation Center for Cell Biology,School of Life Sciences,Xiamen University,Xiamen 361102,People's Republic of China

纳微快报（英文）

[1]Shuang Bai;Yulu Lan;Shiying Fu;Hongwei Cheng;Zhixiang Lu;Gang Liu-.Connecting Calcium-Based Nanomaterials and Cancer:From Diagnosis to Therapy)[J].纳微快报（英文）,2022(09):95-131

calcicoptosis

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