The intracellular translocation of the components of the fibroblast growth factor 1 release complex precedes their assembly prior to export

The release of signal peptideless proteins occurs through nonclassical export pathways and the release of fibroblast growth factor (FGF)1 in response to cellular stress is well documented. Although biochemical evidence suggests that the formation of a multiprotein complex containing S100A13 and Synaptotagmin (Syt)1 is important for the release of FGF1, it is unclear where this intracellular complex is assembled. As a result, we employed real-time analysis using confocal fluorescence microscopy to study the spatio-temporal aspects of this nonclassical export pathway and demonstrate that heat shock stimulates the redistribution of FGF1 from a diffuse cytosolic pattern to a locale near the inner surface of the plasma membrane where it colocalized with S100A13 and Syt1. In addition, coexpression of dominant-negative mutant forms of S100A13 and Syt1, which both repress the release of FGF1, failed to inhibit the stress-induced peripheral redistribution of intracellular FGF1. However, amlexanox, a compound that is known to attenuate actin stress fiber formation and FGF1 release, was able to repress this process. These data suggest that the assembly of the intracellular complex involved in the release of FGF1 occurs near the inner surface of the plasma membrane and is dependent on the F-actin cytoskeleton.     

T cell induction of membrane IL 1 on macrophages

We have studied the role of T cells in the induction of a membrane-associated form of interleukin 1 (mIL 1) in murine macrophages. T helper cell clones and a T cell hybridoma induced macrophages to express mIL 1 after an antigen-specific, Ia-restricted interaction. Induction of mIL 1 was proportional to antigen concentration and was increased in the early course of the response in macrophages pretreated in culture with interferon-gamma. mIL 1 activity was detectable 4 hr after interaction with T cells. mIL 1 induction was inhibited by antibodies to either class II molecules or the T cell receptor. Two pathways of T cell-mediated mIL 1 induction could be defined. In the first, T cells, whose protein synthesizing capacity was completely eliminated by pretreatment with the irreversible protein synthesis inhibitor emetine, induced levels of mIL 1 expression indistinguishable from controls. In the second, T cells stimulated by paraformaldehyde-fixed macrophages in the presence of concanavalin A or antigen secreted a soluble factor that induced macrophage mIL 1 expression. Thus, it appears that T cells may induce macrophages to express mIL 1 both by direct cell-cell contact mediated through binding of T cell receptor to the Ia/antigen complex, and through the release of a lymphokine after activation. This lymphokine does not appear to be IL 2, IFN-gamma, BSF-1, or CSF-1.     

Copper induces the assembly of a multiprotein aggregate implicated in the release of fibroblast growth factor 1 in response to stress.

Fibroblast growth factor (FGF) 1 is known to be released in response to stress conditions as a component of a multiprotein aggregate containing the p40 extravescicular domain of p65 synaptotagmin (Syt) 1 and S100A13. Since FGF1 is a Cu2+-binding protein and Cu2+ is known to induce its dimerization, we evaluated the capacity of recombinant FGF1, p40 Syt1, and S100A13 to interact in a cell-free system and the role of Cu2+ in this interaction. We report that FGF1, p40 Syt1, and S100A13 are able to bind Cu2+ with similar affinity and to interact in the presence of Cu2+ to form a multiprotein aggregate which is resistant to low concentrations of SDS and sensitive to reducing conditions and ultracentrifugation. The formation of this aggregate in the presence of Cu2+ is dependent on the presence of S100A13 and is mediated by cysteine-independent interactions between S100A13 and either FGF1 or p40 Syt1. Interestingly, S100A13 is also able to interact in the presence of Cu2+ with Cys-free FGF1 and this observation may account for the ability of S100A13 to export Cys-free FGF1 in response to stress. Lastly, tetrathiomolybdate, a Cu2+ chelator, significantly represses in a dose-dependent manner the heat shock-induced release of FGF1 and S100A13. These data suggest that S100A13 may be involved in the assembly of the multiprotein aggregate required for the release of FGF1 and that Cu2+ oxidation may be an essential post-translational intracellular modifier of this process.     

Analysis of endogenous and exogenous nuclear translocation of fibroblast growth factor-1 in NIH 3T3 cells.

Nuclear localization of fibroblast growth factors (FGF) have been reported by many laboratories. We demonstrate here that FGF-1, the precursor for acidic FGF contains a putative nuclear translocation sequence (NTS) NYKKPKL, which is able to direct the expression of the bacterial beta galactosidase (beta gal) gene to the nucleus of transfected NIH 3T3 cells. However, this NTS is unable to target either FGF-1 itself or a FGF-1-beta gal fusion protein into the nucleus, suggesting that FGF-1 may contain an additional sequence which prevents endogenously expressed FGF-1 from being translocated into the nucleus. Indeed, when FGF-1 was fused to the NTS derived from the yeast histone 2B gene, the chimeric construct also failed to be transported into the nucleus either by itself or as a beta gal fusion protein. Interestingly, when 125I-FGF-1 was used to stimulate quiescent NIH 3T3 cells, a significant amount of internalized 125I-FGF-1 (approximately 10%) was found within the nucleus and the nuclear localization of FGF-1 through the exogenous pathway could be significantly reduced by suramin, an inhibitor of the interaction of FGF-1 with its receptor. These data suggest that while FGF-1 contains a NTS, nuclear translocation requires an exogenous and not an endogenous pathway.     

Murine interleukin-1 receptor: differences in binding properties between fibroblastic and thymoma cells and evidence for a two-chain receptor model

The concentration of porcine interleukin-1 beta (pIL1 beta) required to elicit half-maximal IL2 production from NOB-1, a subline of murine thymoma EL4, was 100-fold greater than for p1L alpha. In contrast, similar doses of each type of IL1 stimulated increased lactate production by Balb/C 3T3 fibroblasts. Receptor-bound 125I-IL 1 alpha was displaced with equal efficiency by both unlabelled forms from 3T3 cells, but a 20-fold lower affinity for p1L1 beta was observed using NOB-1. Crosslinking experiments suggested that the IL1 receptors on each line consisted of two polypeptides of 80 and 100 kDa. The results provide the first evidence for a multiple-component IL1 receptor within which IL1 alpha and IL1 beta may bind at different loci, and suggest the receptors may have evolved differently in the two lines.     

Effect of UV irradiation on expression of membrane IL 1 by rat macrophages

The effect of UV-B irradiation on the expression of membrane-associated IL 1 (mIL 1) by rat pulmonary alveolar macrophages (PAM) was studied. We found that although there was an increase in secreted IL 1 by PAM exposed to UV-B, the expression of mIL 1 was inhibited in a dose-dependent manner. Furthermore, PAM that were allowed to express mIL 1 before UV-B irradiation had a faster decay of mIL 1 activity than unirradiated cells. These data suggested that mIL 1 expression is inhibited by UV-B irradiation, and that under normal circumstances, mIL 1 synthesis and degradation is at a steady state, with the half-life of mIL 1 activity being 24 hr when assayed in an IL 1-dependent cell line proliferation assay. These data indicate that secreted forms of IL 1 and mIL 1 are differentially regulated and that the therapeutic effects of UV irradiation may be due to its inhibition of mIL 1 activity.     

Copper binding affinity of the C2B domain of synaptotagmin-1 and its potential role in the nonclassical secretion of acidic fibroblast growth factor

Fibroblast growth factor 1 (FGF1) is a heparin-binding proangiogenic protein. FGF1 lacks the conventional N-terminal signal peptide required for secretion through the endoplasmic reticulum (ER)–Golgi secretory pathway. FGF1 is released through a Cu²⁺-mediated nonclassical secretion pathway. The secretion of FGF1 involves the formation of a Cu²⁺-mediated multiprotein release complex (MRC) including FGF1, S100A13 (a calcium-binding protein) and p40 synaptotagmin (Syt1). It is believed that the binding of Cu²⁺ to the C2B domain is important for the release of FGF1 into the extracellular medium. In this study, using a variety of biophysical studies, Cu²⁺ and lipid interactions of the C2B domain of Syt1 were characterized. Isothermal titration calorimetry (ITC) experiments reveal that the C2B domain binds to Cu²⁺ in a biphasic manner involving an initial endothermic and a subsequent exothermic phase. Fluorescence energy transfer experiments using Tb³⁺ show that there are two Cu²⁺-binding pockets on the C2B domain, and one of these is also a Ca²⁺-binding site. Lipid-binding studies using ITC demonstrate that the C2B domain preferentially binds to small unilamellar vesicles of phosphatidyl serine (PS). Results of the differential scanning calorimetry and limited trypsin digestion experiments suggest that the C2B domain is marginally destabilized upon binding to PS vesicles. These results, for the first time, suggest that the main role of the C2B domain of Syt1 is to serve as an anchor for the FGF1 MRC on the membrane bilayer. In addition, the binding of the C2B domain to the lipid bilayer is shown to significantly decrease the binding affinity of the protein to Cu²⁺. The study provides valuable insights on the sequence of structural events that occur in the nonclassical secretion of FGF1.     

Alpha B-crystallin expression in mouse NIH 3T3 fibroblasts: glucocorticoid responsiveness and involvement in thermal protection.

alpha B-crystallin, a major soluble protein of vertebrate eye lenses, is a small heat shock protein which transiently accumulates in response to heat shock and other kinds of stress in mouse NIH 3T3 fibroblasts. Ectopic expression of an alpha B-crystallin cDNA clone renders NIH 3T3 cells thermoresistant. alpha B-crystallin accumulates in response to the synthetic glucocorticoid hormone dexamethasone. Dexamethasone-treated NIH 3T3 cells become thermoresistant to the same extent as they accumulate alpha B-crystallin. A cell clone in which alpha B-crystallin is superinduced upon heat shock acquires augmented thermotolerance. Expression of the ras oncogene causes a rapid but transient accumulation of alpha B-crystallin within 1 day. Later, sustained ras oncogene expression suppresses the dexamethasone-mediated alpha B-crystallin accumulation. Thus, oncogenic transformation triggered by the ras oncogene interferes with hormone-mediated accumulation of alpha B-crystallin and concomitant acquisition of thermoresistance. Other known heat shock proteins do not accumulate in response to ectopic alpha B-crystallin expression or to dexamethasone treatment. These results indicate that alpha B-crystallin can protect NIH 3T3 fibroblasts from thermal shock.     

Sphingosine kinase 1 is a critical component of the copper-dependent FGF1 export pathway

Sphingosine kinase 1 catalyzes the formation of sphingosine-1-phosphate, a lipid mediator involved in the regulation of angiogenesis. Sphingosine kinase 1 is constitutively released from cells, even though it lacks a classical signal peptide sequence. Because copper-dependent non-classical stress-induced release of FGF1 also regulates angiogenesis, we questioned whether sphingosine kinase 1 is involved in the FGF1 release pathway. We report that (i) the coexpression of sphingosine kinase 1 with FGF1 inhibited the release of sphingosine kinase 1 at 37 degrees C; (ii) sphingosine kinase 1 was released at 42 degrees C in complex with FGF1; (iii) sphingosine kinase 1 null cells failed to release FGF1 at stress; (iv) sphingosine kinase 1 is a high affinity copper-binding protein which formed a complex with FGF1 in a cell-free system, and (v) sphingosine kinase 1 over expression rescued the release of FGF1 from inhibition by the copper chelator, tetrathiomolybdate. We propose that sphingosine kinase 1 is a component of the copper-dependent FGF1 release pathway.     

Cyclosporin A sensitivity of the NF-kappa B site of the IL2R alpha promoter in untransformed murine T cells.

We have investigated the characteristics of IL2R alpha gene induction in untransformed murine T cells. Induction of IL2R alpha mRNA by TCR/CD3 ligands in a murine T cell clone and in short-term splenic T cell cultures was inhibited by protein synthesis inhibitors and by CsA. This result was contrary to previous observations in JURKAT T leukemia cells and human peripheral blood T cells, suggesting a difference in the mechanisms of IL2R alpha gene induction in these different cell types. The CsA sensitivity of IL2R alpha mRNA induction represented a direct effect on the TCR/CD3 response, and was not due to CsA-sensitive release of the lymphokines IL2 or tumour necrosis factor alpha (TNF alpha) and consequent lymphokine-mediated induction of IL2R alpha mRNA. The NF-kappa B site of the IL2R alpha promoter was essential for gene induction through the TCR/CD3 complex, and the induction of reporter plasmids containing multimers of this site was significantly inhibited by CsA. Northern blotting analysis indicated that while the p65 subunit of NF-kappa B was constitutively expressed and not appreciably induced upon T cell activation, mRNA for the p105 precursor of p50 NF-kappa B was induced in response to TCR/CD3 stimulation and this induction was sensitive to CsA. Electrophoretic mobility shift assays and antiserum against the p50 subunit of NF-kappa B indicated that p50 was a component of the inducible nuclear complex that bound to the IL2R alpha kappa B site. Appearance of the kB-binding proteins was insensitive to CsA at early times after activation (approximately 15 min), but was partially sensitive to CsA at later times. Based on these results, we propose that the NF-kappa B site of the IL2R alpha promoter mediates at least part of the CsA sensitivity of IL2R alpha gene induction in untransformed T cells, possibly because de novo synthesis of p105 NF-kappa B is required for sustained IL2R alpha expression.     

The non-transmembrane form of Delta1, but not of Jagged1, induces normal migratory behavior accompanied by fibroblast growth factor receptor 1-dependent transformation

The interactions between Notch (N) receptors and their transmembrane ligands, Jagged1 (JI) and Delta1 (Dl1), mediate signaling events between neighboring cells that are crucial during embryonal development and in adults. Since the non-transmembrane extracellular form of J1 acts as an antagonist of N activation in NIH 3T3 mouse fibroblast cells and induces fibroblast growth factor 1 (FGF1)-dependent transformation (Small, D., Kovalenko, D., Soldi, R., Mandinova, A., Kolev, V., Trifonova, R., Bagala, C., Kacer, D., Battelli, C., Liaw, L., Prudovsky, I., and Maciag, T. (2003) J. Biol. Chem. 278, 16405-16413), we examined the potential redundant functions of the two subfamilies of Notch ligands and report that while the soluble (s) forms of both Dl1 and J1 act as N signaling antagonists in NIH 3T3 cells, they do display disparate functions. While sJ1 induced an attenuation of cell motility which is accompanied by a decrease in actin stress fibers and an increase in adherence junctions, sDl1 does not. However, sJ1, like sDl1, induces a NIH 3T3 cell tranformed phenotype mediated by FGF signaling. Because the inhibition of N signaling by sJ1 and sDl1 is rescued by dominant-negative Src expression, we suggest that there may be cooperation between the Notch and Src signaling pathways.     

Th1类细胞因子对pHCV—C重组体诱生免疫应答的增强作用

为了探索Th1类细胞因子IL 2和IL 12对含丙型肝炎病毒 (HCV)核心 (C)基因重组体诱生的免疫应答的增强作用 ,本文构建了包含HCVC基因片段的重组质粒pHCV C ,将其单独或与Th1类细胞因子表达质粒 pIL 2或pIL 12共免疫BALB/c小鼠 ,ELISA法检测免疫小鼠血清中的HCVC特异性抗体滴度 ;以pHCV C转染SP2 / 0细胞 ,经筛选稳定表达HCVC抗原者 (SP2 / 0 HCV C)为靶细胞 ,51Cr释放试验检测细胞毒T淋巴细胞 (CTLs)的体外特异性杀伤功能。结果发现 ,pIL 2能够增加 pHCV C诱导的抗体产生 ,对CTLs的杀伤作用增强却不明显 ;而 pIL 12对 pHCV C诱导的抗体和细胞免疫应答均有增强作用 (p <0 .0 5 )。由此推断 ,佐以Th1类细胞因子 ,不仅可以增强基因疫苗诱生的免疫应答强度 ,而且可能使机体对基因疫苗的免疫应答朝着有利于优先诱导CTLs免疫应答清除病原体的方向发展。     

Accessory function and interleukin 1 production by human leukemic cell lines

Highly purified T lymphocytes do not proliferate in response to mitogens, unless adherent HLA-DR-positive monocytes are added to the culture. This accessory function (AF) of monocytes requires the release of interleukin 1 (IL 1). Cells from three human leukemic cell lines, K562, HL60, and U937, could very efficiently replace monocytes in a 72-hr mitogen-induced T cell proliferation assay. The AF was clearly related to precise maturational stages of these cells; the hematopoietic precursor K562 cells spontaneously exerted high AF, but lost this property when treated with differentiation inducers. On the contrary, the promyelocytic HL60 cells and the "histiocytic" U937 cells exhibited no spontaneous AF, but acquired this property when induced to differentiate along the granulocytic and/or monocytic pathway. Three leukemic cells could not only stimulate T cells to proliferate and produce IL 2 in the presence of mitogens, but also under appropriate culture conditions these cells could produce IL 1, which could not be distinguished from normal human monocyte derived IL 1 by gel filtration and isoelectric focusing. Moreover, analysis of phenotypic markers revealed that AF and production of IL 1 could be demonstrated in different cell types and therefore are not restricted to the monocytic lineage. No HLA-DR antigen could be detected on K562 and HL60 cells. Thus, the expression of the DR antigens is not required for AF and IL 1 production in response to mitogens. These three human leukemic cell lines will provide convenient sources of human IL 1.     

Secretion without Golgi

A growing number of proteins devoid of signal peptides have been demonstrated to be released through the non-classical pathways independent of endoplasmic reticulum and Golgi. Among them are two potent proangiogenic cytokines FGF1 and IL1alpha. Stress-induced transmembrane translocation of these proteins requires the assembly of copper-dependent multiprotein release complexes. It involves the interaction of exported proteins with the acidic phospholipids of the inner leaflet of the cell membrane and membrane destabilization. Not only stress, but also thrombin treatment and inhibition of Notch signaling stimulate the export of FGF1. Non-classical release of FGF1 and IL1alpha presents a promising target for treatment of cardiovascular, oncologic, and inflammatory disorders.