Benzenesulphonamide inhibitors of the cytolytic protein perforin

The pore-forming protein perforin is a key component of mammalian cell-mediated immunity and essential to the pathway that allows elimination of virus-infected and transformed cells. Perforin activity has also been implicated in certain auto-immune conditions and therapy-induced conditions such as allograft rejection and graft versus host disease. An inhibitor of perforin activity could be used as a highly specific immunosuppressive treatment for these conditions, with reduced side-effects compared to currently accepted therapies. Previously identified first-in-class inhibitors based on a 2-thioxoimidazolidin-4-one core show suboptimal physicochemical properties and toxicity toward the natural killer (NK) cells that secrete perforin in vivo. The current benzenesulphonamide-based series delivers a non-toxic bioisosteric replacement possessing improved solubility.     

Hyperthermia suppresses the cytotoxicity of NK cells via down-regulation of perforin/granzyme B expression

Hyperthermia, which is used as an adjunctive therapy for cancer, is known to modulate the activity of natural killer (NK) cells in vitro, but its effect in vivo is unclear. In the present study, we used a whole body hyperthermia (WBH) device heated by infrared rays to evaluate the effect of WBH on mice models. We demonstrate here that wild type C57BL/6J mice exposed to 42 degrees C for 60min had reduced NK cell cytolytic activity against YAC-1 target cells as determined by cytolytic assay. This result was confirmed using Rag-2 knockout mice, which possess functional NK but not cytolytic T or NK-T cells. Moreover, WBH decreased the mRNA expression of perforin and granzyme B in spleens of mice. But the expression of TNF cytokines (Fas ligand and TRAIL) was unchanged. These data suggest that the suppression of NK cell activity induced by WBH could be mediated through the perforin/granzyme pathway.     

Heat shock enhances the expression of cytotoxic granule proteins and augments the activities of tumor-associated antigen-specific cytotoxic T lymphocytes

Focal inflammation causes systemic fever. Cancer hyperthermia therapy results in shrinkage of tumors by various mechanisms, including induction of adaptive immune response. However, the physiological meaning of systemic fever and mechanisms of tumor shrinkage by hyperthermia have not been completely understood. In this study, we investigated how heat shock influences the adaptive immune system. We established a cytotoxic T lymphocyte (CTL) clone (#IM29) specific for survivin, one of the tumor-associated antigens (TAAs), from survivin peptide-immunized cancer patients’ peripheral blood, and the CTL activities were investigated in several temperature conditions (37–41 °C). Cytotoxicity and IFN-γ secretion of CTL were greatest under 39 °C condition, whereas they were minimum under 41 °C. To address the molecular mechanisms of this phenomenon, we investigated the apoptosis status of CTLs, expression of CD3, CD8, and TCRαβ by flow cytometry, and expression of perforin, granzyme B, and Fas ligand by western blot analysis. The expression of perforin and granzyme B were upregulated under temperature conditions of 39 and 41 °C. On the other hand, CTL cell death was induced under 41 °C condition with highest Caspase-3 activity. Therefore, the greatest cytotoxicity activity at 39 °C might depend on upregulation of cytotoxic granule proteins including perforin and granzyme B. These results suggest that heat shock enhances effector phase of the adaptive immune system and promotes eradication of microbe and tumor cells.

Electronic supplementary material

The online version of this article (doi:10.1007/s12192-012-0348-0) contains supplementary material, which is available to authorized users.     

Perforin and granzyme B induce apoptosis in FasL-resistant colon carcinoma cells

 Cytotoxic lymphocytes may induce apoptosis in their target cells by the FasL (Fas ligand) pathway or the perforin/granzyme B pathway. It has been shown that Fas-expressing colon carcinoma (CC) cells are resistant to FasL-mediated apoptosis. The aims of this study were to determine whether CC cells are also resistant to perforin/granzyme B and whether the FasL resistance lies upstream of caspase-3 activation. The resistance of the Fas-expressing rat CC531s cells to the FasL pathway was confirmed by treating them with recombinant human soluble FasL, using rat hepatocytes as a positive control. The intracellular delivery of granzyme B by sublytic concentrations of perforin, on the other hand, resulted in many features of apoptosis (chromatin condensation, nucleus fragmentation, loss of microvilli and internucleosomal DNA fragmentation) within 3 h. Since both the FasL and perforin/granzyme B pathways converge at caspase-3, we measured caspase-3 activity to learn whether the FasL resistance was due to failure to activate this crucial executioner. Caspase-3 activation occurred in CC531s cells after perforin/granzyme B treatment, but not after the addition of recombinant FasL. Furthermore, we showed that caspase-3 activity is involved in the execution of perforin/granzyme-B-induced apoptosis in CC531s cells, since the cell-permeable caspase-3 inhibitor Z-DEVD-FMK abrogated DNA fragmentation. Together, these results suggest that CC cells are sensitive to perforin/granzyme-B-induced apoptosis by activating caspase-3 and FasL resistance lies upstream of this executioner caspase. Received: 20 November 2000 / Accepted: 8 March 2001     

Early activation does not translate into effector differentiation of peripheral CD8T cells during the acute phase of Kawasaki disease

Early diagnosis of acute Kawasaki disease (KD), lying in the spectrum between infectious and autoimmune diseases, can be difficult. To clarify the role of peripheral CD8T cells in KD, we examined their activation, proliferation, maturation, and effector function by four-color flow cytometry. Compared to healthy/febrile controls, acute KD patients showed striking increase in early activation marker CD69⁺CD8T cells and maturation subsets, but HLA-DR⁺CD8T cells representing late activation did not increase. Although Ki67⁺CD8T cells reflecting ongoing cell division increased in acute KD and febrile controls, absolute numbers of CD8T cells and maturation subsets decreased in acute KD versus healthy controls. Effector cells were lower in acute than in convalescent KD. Perforin⁺CD8T cells, denoting cytolytic activity, were lower in KD patients versus febrile controls. CD69⁺CD8T cells increase in acute KD but effector differentiation is absent. CD69⁺CD8T cells could be a marker to determine disease progression, treatment response, and convalescence in acute KD.     

Monomer-monomer interactions propagate structural transitions necessary for pore formation by the cholesterol-dependent cytolysins

The assembly of the cholesterol-dependent cytolysin (CDC) oligomeric pore complex requires a complex choreography of secondary and tertiary structural changes in domain 3 (D3) of the CDC monomer structure. A point mutation was identified in the archetype CDC, perfringolysin O, that blocks detectable D3 structural changes and traps the membrane-bound monomers in an early and reversible stage of oligomer assembly. Using this and other mutants we show that specific D3 structural changes are propagated from one membrane-bound monomer to another. Propagation of these structural changes results in the exposure of a β-strand in D3 that allows it to pair and form edge-on interactions with a second β-strand of a free membrane-bound monomer. Pairing of these strands establishes the final geometry of the pore complex and is necessary to drive the formation of the β-barrel pore. These studies provide new insights into how structural information is propagated between membrane-bound monomers of a self-assembling system and the interactions that establish the geometry of the final pore complex.     

草鱼穿孔素C端溶细胞活性分析

穿孔素的溶细胞作用是机体杀伤病毒和其他微生物感染细胞以及肿瘤细胞的一种效应机制。穿孔素在鱼类非特异性免疫中起重要作用。为了解鱼类穿孔素的功能,根据穿孔素基因序列特征,在已构建的草鱼肝肾cDNA文库中克隆了草鱼穿孔素基因C端包含1个完整蛋白激酶C保守结构域(C2)的cDNA。将该cDNA与表达载体pET32a连接并转化表达菌DE3,诱导表达。His-Bind亲和柱纯化获得了草鱼穿孔素C端表达多肽(PFP-C)。将PFP-C与兔红细胞共育,结果表明：PFP-C具有溶血功能,且在pH 7.5时活性最大,其溶血活性对Ca2+有明显的依赖性。     

Phylogenetic Analysis of the Homologous Proteins of the Terminal Complement Complex Supports the Emergence of C6 and C7 Followed by C8 and C9

The plasma complement system comprises several activation pathways that share a common terminal route involving the assembly of the terminal complement complex (TCC), formed by C5b–C9. The order of emergence of the homologous components of TCC (C6, C7, C8α, C8β, and C9) has been determined by phylogenetic analyses of their amino acid sequences. Using all the sequence data available for C6–C9 proteins, as well as for perforins, the results suggested that these TCC components originated from a single ancestral gene and that C6 and C7 were the earliest to emerge. Our evidence supports the notion that the ancestral gene had a complex modular composition. A series of gene duplications in combination with a tendency to lose modules resulted in successive complement proteins with decreasing modular complexity. C9 and perforin apparently are the result of different selective conditions to acquire pore-forming function. Thus C9 and perforin are examples of evolutionary parallelism. Received: 16 August 1998 / Accepted: 12 March 1999