The liver,as the core metabolic organ of the human body,undertakes multiple critical physiological functions such as protein synthesis,xenobiotic metabolism,and immune regulation.Liver failure represents a major disease process in patients with end-stage liver disease,characterized clinically by coagulopathy,abnormal bilirubin metabolism,and multiple organ dysfunction.Depending on the disease course,liver failure can be classified into four types:acute,subacute,acute-on-chronic,and chronic.The pathogenic mechanisms are complex,involving interactions among various factors such as pathogen infections,dysregulation of the immune microenvironment,and gut microbiota disturbances,which pose significant challenges for clinical diagnosis and treatment.This review summarizes the abnormalities in innate and adaptive immune responses,as well as the molecular mechanisms of immune metabolic dysregulation during the occurrence and progression of liver failure.It further explores the pivotal role of immune cell dysfunction in the disease process,aiming to provide a theoretical basis for targeted immune therapies in liver failure.

Objective:To analyze the characteristics of immune cross-reaction between herpes simplex virus type 1 (HSV-1) and HSV-2 in terms of serology and clinical protection aiming to provide data for the control and prevention of diseases caused by the two viruses.Methods:An attenuated HSV-1 strain M3 was used to immunize BALB/c mice. Specific immune responses indicated by the production of neutralizing antibodies were detected. Wild-type HSV-1 and HSV-2 strains were respectively used to infect the mice through different ways 28 d after the immunization to observe the protective immunity in the M3-immunized mice against HSV-1/2 infection.Results:M3 strain could not induce specific neutralizing antibodies against HSV-2. Therefore, viral loads in tissues of the immunized mice increased significantly following different modes of HSV-2 exposure. However, no obvious abnormal clinical manifestations were found and the histopathological damage was only slight inflammatory reaction. In contrast, HSV-1-specific neutralizing antibodies were elicited in the M3-immunizaed mice with significant protective effects against HSV-1 infection.Conclusions:The immune response induced by attenuated HSV-1 strain M3 in mice exhibited immune-protective effects characterized by production of neutralizing antibodies and inhibition of virus proliferation in vivo against wild-type HSV-1 infection. For HSV-2, instead of neutralizing virus in form of antibodies, it featured by more of clinical cross-immunoprotective abilities to control virus growth.

Objective To investigate the molecular characteristics of immune response signaling molecules induced by transfection of coxsackievirus B2 ( CVB2 ) structural proteins into epithelial cells. Methods Recombinant eukaryotic expression plasmids containing the coding regions of CVB2 structural proteins VP1-VP4 were constructed and then transfected into 16HBE cells. Culture supernatants and cell ly-sates of the transfected 16HBE cells were collected. Expression of signaling molecules involved in innate im-mune responses in transfected 16HBE cells at mRNA level was detected by RT-Q-PCR. The proliferation of T cells co-cultured with culture supernatants and cell lysates of the transfected 16HBE cells was analyzed by ELISPOT. Results Expression of innate immunity-related signaling molecules such as TGF-β-activated ki-nase ( TAK) , NF-κB-inducing kinase ( NIK) , IκB kinase α ( IKKα) and IFN-β at mRNA level was up-regulated in 16HBE cells transfected with CVB2 structural proteins VP1-VP4. Both culture supernatants and cell lysates of the transfected 16HBE cells enhanced the proliferation of T cells. Conclusions CVB2 struc-tural proteins VP1-VP4 could enhance the expression of innate immunity-related signaling molecules to var-ying degrees and promote the activation of adaptive immunity.