CD147 promotes progression of head and neck squamous cell carcinoma via NF‐kappa B signaling

CD147/basigin (BSG) is highly upregulated in many types of cancer, our previous study has found that CD147/BSG is highly expressed in head and neck squamous cell carcinoma (HNSCC) stem cells, but its role in HNSCC and the underlying mechanism is still unknown. In this study, we investigated the role of CD147 in the progression of HNSCC. Real‐time PCR, western blot and immunohistochemistry were used to detect the expression of CD147 in total 189 HNSCC tissues in compared with normal tissues. In addition, we used proliferation, colony formation, cell cycle and apoptosis, migration and invasion as well as wound‐healing assay to determine the biological roles of CD147 in HNSCC. Then, a xenograft model was performed to evaluate tumor‐promoting and metastasis‐promoting role of CD147 in HNSCC. The results showed that upregulated CD147 expression was associated with aggressive clinicopathologic features in HNSCC. In addition, CD147 promoted proliferation, migration and reduced the apoptosis phenotype of HNSCC cells in vitro as well as tumor initiation and progression in vivo. Furthermore, we demonstrated that CD147 promoted HNSCC progression through nuclear factor kappa B signaling. Therefore, we concluded that CD147 promoted tumor progression in HNSCC and might be a potential prognostic and treatment biomarker for HNSCC.     

Ecto-5′-nucleotidase (CD73) is a potential target of hepatocellular carcinoma

High expression of ecto-5′-nucleotidase (CD73) has been reported in a number of epithelium origin malignancies. Here, we hypothesize that CD73 promotes hepatocellular carcinoma (HCC) growth and metastasis and that the effect is mediated by epithelial growth factor receptor (EGFR). HCC cells with different malignancies and Tissue microarrays of the tumor and peritumoral liver tissues from 30 independent patients were used to examine CD73 and EGFR expression. Then, MTT and Ki67 detection, together with cell adhesion, invasion, and migration assays were used to evaluate the effects of CD73 on cell growth and metastasis. The expression of EGFR in HCC cells was also tested after suppressing or overexpressing CD73. Lastly, tumor tissues from nude mice, which had been injected subcutaneously with HCC cells, were transplanted subcutaneously into CD73^−/− and wild-type (WT) C57 mice. CD73 expression was higher in HCC cells with greater metastatic potentials and tumor tissues compared with low metastatic cells and peritumor tissues. CD73 and EGFR were coexpressed and positively correlated in tumor and peritumor liver tissues in HCC tissue microarrays. Up-regulationof CD73 by plasmid transfection or by pharmacological agents promoted EGFR expression in HCC cells, whereas suppression of CD73 inhibited these effects. The growth of transplanted tumor tissues was dramatically slower in CD73^−/− mice than in WT type mice in the in vivo experiments. CD73 promotes HCC growth and metastasis and upregulated the expression of EGFR in HCC. Thus, CD73 and EGFR are potential targets in the treatment of HCC.     

CD147 regulates the expression of MCT1 and lactate export in multiple myeloma cells

Increased use of the glycolytic pathway, even in the presence of oxygen, has recently been recognized as a key characteristic of malignant cells. However, the glycolytic phenotype results in increased lactic acid production and, in order to prevent cellular acidosis, tumor cells must increase proton efflux via upregulation of pH regulators such as proton-pumps, sodium-proton exchangers, and/or monocarboxylate transporters (MCT) (e.g., MCT1, MCT4). Interestingly, expression of MCT1 and MCT4 has been previously shown to be dependent upon expression of the transmembrane glycoprotein CD147. Recently, we demonstrated that primary patient multiple myeloma (MM) cells and human MM cell lines (HMCLs) overexpress CD147. Therefore, the goal of the current study was to specifically determine if MCT1 and MCT4 were also overexpressed in MM cells. RT-PCR analysis demonstrated both primary patient MM cells and HMCLs overexpress MCT1 and MCT4 mRNA. Notably, primary MM cells or HMCLs were found to express variable levels of MCT1 and/or MCT4 at the protein level despite CD147 expression. In those HMCLs positive for MCT1 and/or MCT4 protein expression, MCT1 and/or MCT4 were found to be associated with CD147. Specific siRNA-mediated downregulation of MCT1 but not MCT4 resulted in decreased HMCL proliferation, decreased lactate export, and increased cellular media pH. However, western blot analysis revealed that downregulation of MCT1 also downregulated CD147 and vice versa despite no effect on mRNA levels. Taken together, these data demonstrate the association between MCT1 and CD147 proteins in MM cells and importance of their association for lactate export and proliferation in MM cells.     

血小板反应蛋白4通过诱导肿瘤相关巨噬细胞M2型极化促进肝癌细胞转移

血小板反应蛋白4 (thrombospondin 4, THBS4)属于THBS家族成员,是细胞外基质分泌的蛋白质,参与调控细胞增殖、黏附及血管生成等多种生理过程。近来研究表明,机体在炎症刺激下加速产生THBS4并诱导巨噬细胞粘附与积累。我们的前期研究证实,THBS4在肝癌(hepatocellular carcinoma, HCC)中发挥促癌作用,但THBS4对肝癌免疫微环境的影响尚不明确。本文旨在分析THBS4通过诱导肿瘤相关巨噬细胞M2型极化,促进肝癌细胞转移的作用。通过肝癌条件培养基(HCC conditioned medium, HCM)模拟肿瘤微环境,发现在HCM作用下巨噬细胞中THBS4表达呈时间依赖性升高(P<0.05);下调THBS4促使M1型巨噬细胞标志物IL-1β、CD86的表达升高(P<0.01),而M2型标志物IL-10和CD206表达降低(P<0.01)。进一步通过Transwell共培养实验检测THBS4诱导的M2型巨噬细胞对肝癌转移的影响。将下调THBS4的M2型巨噬细胞(M2-TAMs)与HepG2肝癌细胞进行共培养。结果显示,下调T...     

HSPA12B promotes functional recovery after ischaemic stroke through an eNOS‐dependent mechanism

Stroke is the leading cause of disability worldwide. HSPA12B, a heat‐shock protein recently identified expression specifically in endothelial cells, is able to promote angiogenesis. Here, we have investigated its effects on functional recovery at chronic phase of ischaemic stroke. Ischaemic stroke was induced by 60 min. of middle cerebral artery occlusion in transgenic mice with overexpression of HSPA12B (HSPA12B Tg) and wild‐type littermates (WT). HSPA12B Tg mice demonstrated a significant higher survival rate than WT mice within 28 days post‐stroke. Significant improved neurological functions, increased spontaneous locomotor activity and decreased anxiety were detected inHSPA12B Tg mice compared with WT controls within 21 days post‐stroke. Stroke‐induced hippocampal degeneration was attenuated in HSPA12B Tg mice examined at day 28 post‐stroke. Interestingly, HSPA12B Tg mice showed enhanced peri‐infarct angiogenesis (examined 28 days post‐stroke) and hippocampal neurogenesis (examined 7 days post‐stroke), respectively, compared to WT mice. The stroke‐induced eNOS phosphorylation and TGF‐β1 expression were augmented in HSPA12B Tg mice. However, administration with eNOS inhibitor L‐NAME diminished the HSPA12B‐induced protection in neurological functional recovery and mice survival post‐stroke. The data suggest that HSPA12B promoted functional recovery and survival after stroke in an eNOS‐dependent mechanism. Targeting HSPA12B expression may have a therapeutic potential for the stroke‐evoked functional disability and mortality.     

棕榈酸促进肝癌细胞侵袭转移的分子机制

目的:探讨棕榈酸(Palmiticacid,PA)对人肝癌细胞系SMMC-7721侵袭转移能力的影响,并通过检测肝癌细胞系中CD147-MMPs信号通路在PA影响下的变化,初探PA影响肝癌细胞侵袭转移的分子机制。方法:PA(0、20、50、100μM)作用SMMC-7721细胞后(8、16、24h),MTT法检测细胞增殖,划痕及Transwell实验评价细胞迁移侵袭能力,Western-blot及real-time PCR检测CD147蛋白及其mRNA的水平,ELISA检测基质金属蛋白酶(MMP-2,MMP-9)的水平。结果:与对照组相比,PA作用SMMC-7721细胞后,细胞存活率无显著差异(P0.05);细胞迁移和侵袭能力显著增高(P0.05);CD147蛋白及其mRNA的表达显著增高(P0.05);培养上清中MMP-9的浓度显著增高(P0.05),MMP-2的水平则无变化。不同的梯度组之间相比较,细胞迁移和侵袭能力、CD147的表达水平(蛋白及其mRNA)以及培养上清中MMP-9的浓度均随PA作用时间和作用剂量的增大而产生更显著的增高。结论:PA通过活化CD147-MMPs信号通路促进SMMC-7721细胞的迁移侵袭。     

Epigenetic upregulation and functional role of the mitochondrial aspartate/glutamate carrier isoform 1 in hepatocellular carcinoma

Metabolic reprogramming is a common hallmark of cancer cells. Although some biochemical features have been clarified, there is still much to learn about cancer cell metabolism and its regulation. Aspartate-glutamate carrier isoform 1 (AGC1), encoded by SLC25A12 gene, catalyzes an exchange between intramitochondrial aspartate and cytosolic glutamate plus a proton across the mitochondrial membrane, so supplying aspartate to the cytosol. SLC25A12, expressed in brain, heart, and skeletal muscle, is silenced in normal liver. Here, we demonstrate that SLC25A12 gene is reactivated in hepatocellular carcinoma (HCC) HepG2 cell line through histone acetylation and CREB recruitment. Furthermore, SLC25A12 knockdown by small interfering RNA, impairs HepG2 cell proliferation by inducing cell cycle arrest. AGC1 sustains HCC cell growth by supplying cytosolic aspartate for nucleotide biosynthesis. In addition, SLC25A12-silenced HCC cells show a strong reduction of cell migration. Overall, we have provided evidence for molecular mechanisms controlling SLC25A12 gene expression in liver and pointing to an important role for AGC1 in HCC.     

Alpha fetoprotein plays a critical role in promoting metastasis of hepatocellular carcinoma cells

A high level of serum alpha fetoprotein (AFP) is positively associated with human hepatocellular carcinoma (HCC) carcinogenesis and metastasis; however, the function of AFP in HCC metastasis is unknown. This study has explored the effects of AFP on regulating metastatic and invasive capacity of human HCC cells. Forty‐seven clinical patients' liver samples were collected and diagnosed; HCC cells line, Bel 7402 cells (AFP‐producing) and liver cancer cell line cells (non‐AFP‐producing) were selected to analyse the role of AFP in the metastasis of HCC cells. The results indicated that high serum concentration of AFP was positively correlated with HCC intrahepatic, lymph nodes and lung metastasis. Repressed expression of AFP significantly inhibited the capability of migration and invasion of Bel 7402 cells, expression of keratin 19 (K19), epithelial cell adhesion molecule (EpCAM), matrix metalloproteinase 2/9 (MMP2/9) and CXC chemokine receptor 4 (CXCR4) were also down‐regulated in Bel 7402 cells; migration and invasion, expression of K19, EpCAM, MMP2/9 and CXCR4 were significantly enhanced when HLE cells were transfected with AFP‐expressed vector. The results demonstrated that AFP plays a critical role in promoting metastasis of HCC; AFP promoted HCC cell invasion and metastasis via up‐regulating expression of metastasis‐related proteins. Thus, AFP may be used as a novel therapeutic target for treating HCC patients.     

Blocking CD147 induces cell death in cancer cells through impairment of glycolytic energy metabolism

CD147 is a multifunctional transmembrane protein and promotes cancer progression. We found that the anti-human CD147 mouse monoclonal antibody MEM-M6/1 strongly induces necrosis-like cell death in LoVo, HT-29, WiDr, and SW620 colon cancer cells and A2058 melanoma cells, but not in WI-38 and TIG-113 normal fibroblasts. Silencing or overexpression of CD147 in LoVo cells enhanced or decreased the MEM-M6/1 induced cell death, respectively. CD147 is known to form complex with proton-linked monocarboxylate transporters (MCTs), which is critical for lactate transport and intracellular pH (pHi) homeostasis. In LoVo cells, CD147 and MCT-1 co-localized on the cell surface, and MEM-M6/1 inhibited the association of these molecules. MEM-M6/1 inhibited lactate uptake, lactate release, and reduced pHi. Further, the induction of acidification was parallel to the decrease of the glycolytic flux and intracellular ATP levels. These effects were not found in the normal fibroblasts. As cancer cells depend on glycolysis for their energy production, CD147 inhibition might induce cell death specific to cancer cells.     

Long Non-coding RNA HOXA10-AS Promotes Invasion and Migration of Hepatocellular Carcinoma Cells

Some studies have showed that long non-coding RNA (lncRNA) HOXA10-AS acts as an oncogene and regulates the invasion and metastasis of tumor cells. However, its mechanism in the invasion and migration of hepatocellular carcinoma (HCC) cells is unclear. The purpose of this study was to analyze the expression of HOXA10-AS in HCC tissues and its clinical significance, detect the influence of HOXA10-AS on the invasion and migration of HCC cells, and explore the mechanism of HOXA10-AS in promoting the invasion and migration of HCC cells. The results of quantitative real-time PCR (qRT-PCR) showed that the expression of HOXA10-AS was significantly upregulated in HCC tissues compared with the adjacent non-HCC tissues. Age and gender did not show significant correlation with HOXA10-AS expression, while tumor size, lymphatic metastasis and distant metastasis showed significant correlation with HOXA10-AS expression. Meanwhile, the expression of HOXA10-AS in HCC cells was higher than that in normal liver cells. After interfering with HOXA10-AS in HCC cell lines HepG2 and QGY7701, Transwell invasion and scratch experiments showed that the invasion and migration ability of HOXA10-AS cells in the HOXA10-AS group was significantly lower than that in the control group. Western blotting results showed that the expression levels of vimentin and N-cadherin were significantly lower than those of the control group, while the E-cadherin expression was significantly increased. The TGFβ1/Smads signaling pathway was inhibited after HOXA10-AS interference. In summary, HOXA10-AS promotes the invasion and migration of HCC cells by the TGFβ1/Smads signaling pathway.     

LASP1 promotes proliferation,metastasis, invasion in head and neck squamous cell carcinoma and through direct interaction with HSPA1A

LIM and SH3 protein 1 (LASP1) is a specific focal adhesion protein that promotes metastasis in a variety of tumours. However, its role in head and neck squamous cell carcinoma (HNSCC) has not been fully validated. The purpose of this study was to analyse the interaction of LASP1 and its binding partner in HNSCC. The expression of LASP1 and HSPA1A in HNSCC was analysed by real‐time PCR and Western blot. The effects of LASP1 on the biology behaviour of HNSCC cell lines were observed in vivo and in vitro. Co‐immunoprecipitation analysis was performed to confirm the interaction between LASP1 and HSPA1A. LASP1 was highly expressed in HNSCC and associated with poor prognosis for patients. LASP1 also promoted cell proliferation, colony formation, invasion and cell cycle G2/M phase transition. Heat shock protein family A member 1A (HSPA1A) is identified as a chaperone protein of LASP1 and co‐localized in the cytoplasm. HSPA1A positively regulates the interaction of LASP1 with P‐AKT and enhances the malignant behaviour of HNSCC cells. LASP1 and HSPA1A are both up‐regulated in HNSCC, and directly binds to each other. Double inhibition of LASP1 and HSPA1A expression may be an effective method for the treatment of HNSCC.     

Annexin A2 Promotes the Migration and Invasion of Human Hepatocellular Carcinoma Cells In Vitro by Regulating the Shedding of CD147-Harboring Microvesicles from Tumor Cells

It has been reported that Annexin A2 (ANXA2) is up-regulated in hepatocellular carcinoma (HCC), but the roles of ANXA2 in the migration and invasion of HCC cells have not been determined. In this study, we found that ANXA2-specific siRNA (si-ANXA2) significantly inhibited the migration and invasion of HCC cells co-cultured with fibroblasts in vitro. In addition, the production of MMP-2 by fibroblasts cultured in supernatant collected from si-ANXA2-transfected HCC cells was notably down-regulated. ANXA2 was also found to be co-localized and co-immunoprecipitated with CD147. Further investigation revealed that the expression of ANXA2 in HCC cells affected the shedding of CD147-harboring membrane microvesicles, acting as a vehicle for CD147 in tumor-stromal interactions and thereby regulating the production of MMP-2 by fibroblasts. Together, these results suggest that ANXA2 enhances the migration and invasion potential of HCC cells in vitro by regulating the trafficking of CD147-harboring membrane microvesicles.     

The fatty acid receptor CD36 promotes HCC progression through activating Src/PI3K/AKT axis-dependent aerobic glycolysis

Metabolic reprogramming is a new hallmark of cancer but it remains poorly defined in hepatocellular carcinogenesis (HCC). The fatty acid receptor CD36 is associated with both lipid and glucose metabolism in the liver. However, the role of CD36 in metabolic reprogramming in the progression of HCC still remains to be elucidated. In the present study, we found that CD36 is highly expressed in human HCC as compared with non-tumor hepatic tissue. CD36 overexpression promoted the proliferation, migration, invasion, and in vivo tumor growth of HCC cells, whereas silencing CD36 had the opposite effects. By analysis of cell metabolic phenotype, CD36 expression showed a positive association with extracellular acidification rate, a measure of glycolysis, instead of oxygen consumption rate. Further experiments verified that overexpression of CD36 resulted in increased glycolysis flux and lactic acid production. Mechanistically, CD36 induced mTOR-mediated oncogenic glycolysis via activation of Src/PI3K/AKT signaling axis. Pretreatment of HCC cells with PI3K/AKT/mTOR inhibitors largely blocked the tumor-promoting effect of CD36. Our findings suggest that CD36 exerts a stimulatory effect on HCC growth and metastasis, through mediating aerobic glycolysis by the Src/PI3K/AKT/mTOR signaling pathway.Subject terms: Cancer metabolism, Tumour biomarkers     

HAb18G/CD147 functions in invasion and metastasis of hepatocellular carcinoma

CD147 molecule is reported to be correlated with the malignancy of some cancers; however, it remains unclear whether it is involved in the progression of hepatocellular carcinoma (HCC). Here, we investigated the function of HAb18G/CD147, a member of CD147 family, and its antibodies, HAb18 and LICARTIN, in HCC invasion and metastasis. We observed that HAb18G/CD147 gene silence in HCC cells significantly decreased the secretion of matrix metalloproteinase (MMP) and the invasive potential of HCC cells (P < 0.001). MMP silence in HCC cells also significantly suppressed the invasion of the cells when cocultured with fibroblasts; however, its inhibitory effect was significantly weaker than that of both HAb18G/CD147 silence in HCC cells and that of MMP silence in fibroblasts (P < 0.001). Blocking theHAb18G/CD147 molecule on HCC cells with HAb18 monoclonal antibody resulted in a similar suppressive effect on MMP secretion and cell invasion, but with no significant effects on the cell growth. (131)I-labeled HAb18 F(ab')(2) (LICARTIN), however, significantly inhibited the in vitro growth of HCC cells (P < 0.001). In an orthotopic model of HCC in nude mice, HAb18 and LICARTIN treatment effectively reduced the tumor growth and metastasis as well as the expression of three major factors in the HCC microenviroment (MMPs, vascular endothelial growth factor, and fibroblast surface protein) in the paracancer tissues. Overall, these results suggest that HAb18G/CD147 plays an important role in HCC invasion and metastasis mainly via modulating fibroblasts, as well as HCC cells themselves to disrupt the HCC microenviroment. LICARTIN can be used as a drug targeting to HAb18G/CD147 in antimetastasis and recurrence therapy of HCC.     

Inhibition of Inducible Heat Shock Protein-70 (Hsp72) Enhances Bortezomib-Induced Cell Death in Human Bladder Cancer Cells

The proteasome inhibitor bortezomib (Velcade) is a promising new agent for bladder cancer therapy, but inducible cytoprotective mechanisms may limit its potential efficacy. We used whole genome mRNA expression profiling to study the effects of bortezomib on stress-induced gene expression in a panel of human bladder cancer cell lines. Bortezomib induced strong upregulation of the inducible HSP70 isoforms HSPA1A and HSPA1B isoforms of Hsp72 in 253J B-V and SW780 (HSPA1A^high) cells, but only induced the HSPA1B isoform in UM-UC10 and UM-UC13 (HSPA1A^low) cells. Bortezomib stimulated the binding of heat shock factor-1 (HSF1) to the HSPA1A promoter in 253JB-V but not in UM-UC13 cells. Methylation-specific PCR revealed that the HSPA1A promoter was methylated in the HSPA1A^low cell lines (UM-UC10 and UM-UC13), and exposure to the chromatin demethylating agent 5-aza-2′-deoxycytidine restored HSPA1A expression. Overexpression of Hsp72 promoted bortezomib resistance in the UM-UC10 and UM-UC13 cells, whereas transient knockdown of HSPA1B further sensitized these cells to bortezomib, and exposure to the chemical HSF1 inhibitor KNK-437 promoted bortezomib sensitivity in the 253J B-V cells. Finally, shRNA-mediated stable knockdown of Hsp72 in 253J B–V promoted sensitivity to bortezomib in vitro and in tumor xenografts in vivo. Together, our results provide proof-of-concept for using Hsp72 inhibitors to promote bortezomib sensitivity in bladder cancers and suggest that selective targeting of HSPA1B could produce synthetic lethality in tumors that display HSPA1A promoter methylation.     

G Protein-Coupled Receptor 87 (GPR87) Promotes the Growth and Metastasis of CD133+ Cancer Stem-Like Cells in Hepatocellular Carcinoma

Hepatocellular carcinoma (HCC) is a prevalent disease worldwide, and the majority of HCC-related deaths occur due to local invasion and distant metastasis. Cancer stem cells (CSCs) are a small subpopulation of cancer cells that have been hypothesized to be responsible for metastatic disease. Recently, we and others have identified a CSC population from human HCC cell lines and xenograft tumors characterized by their expression of CD133. However, the precise molecular mechanisms by which CD133⁺ cancer stem-like cells mediate HCC metastasis have not been sufficiently analyzed. Here, we have sorted HCC cells using CD133 as a cancer stem cell (CSC) marker by magnetic-activated cell sorting (MACS) and demonstrated that the CD133⁺ HCC cells not only possess greater migratory and invasive capacity in vitro but are also endowed with enhanced metastatic capacity in vivo and in human HCC specimens when compared to CD133⁻ HCC cells. Gene expression analysis of the CD133⁺ and CD133⁻ cells of the HCC line SMMC-7721 revealed that G protein-coupled receptor 87 (GPR87) is highly expressed in CD133⁺ HCC cells. In this study, we explored the role of GPR87 in the regulation of CD133 expression. We demonstrated that the overexpression of GPR87 up-regulated CD133 expression, promoted CSC-associated migratory and invasive properties in vitro, and increased tumor initiation in vivo. Conversely, silencing of GPR87 expression reduced the levels of CD133 expression. Conclusion: GPR87 promotes the growth and metastasis of CD133⁺ cancer stem-like cells, and our findings may reveal new targets for HCC prevention or therapy.     

HSPA12B inhibits lipopolysaccharide‐induced inflammatory response in human umbilical vein endothelial cells

Heat shock protein A12B (HSPA12B) is a newly discovered member of the HSP70 protein family. This study investigated the effects of HSPA12B on lipopolysaccharide (LPS)‐induced inflammatory responses in human umbilical vein endothelial cells (HUVECs) and the possible mechanisms involved. A HUVECs inflammatory model was induced by LPS. Overexpression of HSPA12B in HUVECs was achieved by infection with recombinant adenoviruses encoding green fluorescence protein‐HSPA12B. Knockdown of HSPA12B was achieved by siRNA technique. Twenty four hours after virus infection or siRNA transfection, HUVECs were stimulated with 1 μg/ml LPS for 4 hrs. Endothelial cell permeability ability was determined by transwell permeability assay. The binding rate of human neutrophilic polymorphonuclear leucocytes (PMN) with HUVECs was examined using myeloperoxidase assay. Cell migrating ability was determined by the wound‐healing assay. The mRNA and protein expression levels of interested genes were analyzed by RT‐qPCR and Western blot, respectively. The release of cytokines interleukin‐6 and tumour necrosis factor‐α was measured by ELISA. HSPA12B suppressed LPS‐induced HUVEC permeability and reduced PMN adhesion to HUVECs. HSPA12B also inhibited LPS‐induced up‐regulation of adhesion molecules and inflammatory cytokine expression. By contrast, knockdown of HSPA12B enhanced LPS‐induced increases in the expression of adhesion molecules and inflammatory cytokines. Moreover, HSPA12B activated PI3K/Akt signalling pathway and pharmacological inhibition of this pathway by Wortmannin completely abrogated the protection of HSPA12B against inflammatory response in HUVECs. Our results suggest that HSPA12B attenuates LPS‐induced inflammatory responses in HUVECs via activation of PI3K/Akt signalling pathway.