alpha 1-Proteinase inhibitor, alpha 1-antichymotrypsin, and alpha 2-macroglobulin are the antiapoptotic factors of vascular smooth muscle cells

Serum depletion induces cell death. Whereas serum contains growth factors and adhesion molecules that are important for survival, serum is also likely to have antiapoptotic factor(s). We show here that the plasma proteinase inhibitors alpha1-proteinase inhibitor, alpha1-antichymotrypsin, and alpha2-macroglobulin function as critical antiapoptotic factors for human vascular smooth muscle cells. Cell survival was assured when serum-free medium was supplemented with any one or all of the above serine proteinase inhibitors. In contrast, the cells were sensitive to apoptosis when cultured in medium containing serum from which the proteinase inhibitors were removed. The antiapoptotic effect conferred by the proteinase inhibitors was proportional to proteinase inhibitory activity. Without proteinase inhibitors, the extracellular matrix was degraded, and cells could not attach to the matrix. Cell survival was dependent on the intact extracellular matrix. In the presence of the caspase inhibitor z-VAD, the cells detached but did not die. The activity of caspases was elevated without proteinase inhibitors; in contrast, caspases were not activated when medium was supplemented with one of the proteinase inhibitors. In conclusion, the plasma proteinase inhibitors prevent degradation of extracellular matrix by proteinases derived from cells. Presumably an intact cell-matrix interaction inhibits caspase activation and supports cell survival.     

Inhibition of plasminogen activators and the growth of cultured human tumour cells

1. Inhibition of a human fibroblast cell-surface proteinase with alpha-1-antitrypsin also inhibited cell proliferation, confirming earlier observations. 2. Although a similar proteinase inhibition could be observed with human tumour cells, the growth of these cells was unaffected. 3. Plasminogen activators on the cell surface and in culture media could be inhibited with specific antibodies, but there was no corresponding effect on the growth of any of the cell types tested.     

植物蛋白酶抑制剂在植物抗虫与抗病中的作用

综述了植物蛋白酶抑制剂抗虫与抗病作用的研究进展.蛋白酶抑制剂广泛存在于植物体内,与植物抗虫抗病密切相关.植物蛋白酶抑制剂能抑制昆虫肠道蛋白酶,使昆虫生长发育缓慢,甚至死亡.但取食蛋白酶抑制剂后,昆虫能迅速分泌对抑制剂不敏感的蛋白酶,而使蛋白酶抑制剂无效.食物蛋白的含量和质量也影响植物蛋白酶抑制剂的抗虫效果.病原菌的感染能诱导植物产生蛋白酶抑制剂,诱导产生的蛋白酶抑制剂能抑制病原菌的生长.     

Effect of retroviral proteinase inhibitors on Mason-Pfizer monkey virus maturation and transmembrane glycoprotein cleavage.

Mason-Pfizer monkey virus (M-PMV) is the prototype type D retrovirus which preassembles immature intracytoplasmic type A particles within the infected cell cytoplasm. Intracytoplasmic type A particles are composed of uncleaved polyprotein precursors which upon release are cleaved by the viral proteinase to their constituent mature proteins. This results in a morphological change in the virion described as maturation. We have investigated the role of the viral proteinase in virus maturation and infectivity by inhibiting the function of the enzyme through mutagenesis of the proteinase gene and by using peptide inhibitors originally designed to block human immunodeficiency virus type 1 proteinase activity. Mutation of the active-site aspartic acid, Asp-26, to asparagine abrogated the activity of the M-PMV proteinase but did not affect the assembly of noninfectious, immature virus particles. In mutant virions, the transmembrane glycoprotein (TM) of M-PMV, initially synthesized as a cell-associated gp22, is not cleaved to gp20, as is observed with wild-type virions. This demonstrates that the viral proteinase is responsible for this cleavage event. Hydroxyethylene isostere human immunodeficiency virus type 1 proteinase inhibitors were shown to block M-PMV proteinase cleavage of the TM glycoprotein and Gag-containing precursors in a dose-dependent manner. The TM cleavage event was more sensitive than cleavage of the Gag precursors to inhibition. The infectivity of treated particles was reduced significantly, but experiments showed that inhibition of precursor and TM cleavage may be at least partially reversible. These results demonstrate that the M-PMV aspartyl proteinase is activated in released virions and that the hydroxyethylene isostere proteinase inhibitors used in this study exhibit a broad spectrum of antiretroviral activity.     

A serine proteinase inhibitor produced by an HTLV I virus-transformed human T lymphocyte line

A previous report from our laboratory indicated that a proteinase inhibitor is produced by rabbit T lymphocytes. We now report that a human T cell line, C91/PL, produces a proteinase inhibitor which inhibits the enzymatic activity of trypsin and kallikrein. This newly identified proteinase inhibitor (LPI 1) did not inhibit the enzymatic activity of four other serine proteinases (thrombin, plasmin, chymotrypsin, or pancreatic elastase), a thiol proteinase (papain), or a carboxyl proteinase (pepsin). Active synthesis of LPI 1 by the C91/PL cell line was shown by the appearance of similar levels of inhibitory activity in sequential cell supernatants, lack of appearance of inhibitor in supernatants of cells killed by heat or sodium azide or of viable cells in the presence of cyclohexamide, and incorporation of a radiolabeled amino acid into newly synthesized inhibitor. Although both the inhibitor of rabbit origin and of human origin are proteins produced by T cells and have similar inhibitory specificity, important differences were observed: LPI 1 is sensitive to boiling and the two inhibitors migrate differently upon electrophoresis in substrate-containing polyacrylamide gel. Furthermore, LPI 1 was produced by a cell line of the T4 phenotype which had been established by in vitro viral transformation of human cord blood lymphocytes with HTLV 1 whereas the inhibitor of rabbit origin was produced by normal splenic T cells. Three other human T cell lines of the T4 phenotype, MOLT-13, KE-37, and HPB-ALL, from patients with acute lymphoblastic leukemia did not produce a proteinase inhibitor. Thus, the production of proteinase inhibitors does not appear to be a general characteristic of human T cell lines nor of the T4 subset. Proteinase inhibitors produced by T cells may have an immunoregulatory role in proteinase-mediated physiological processes.     

Cell surface-bound elastase and cathepsin G on human neutrophils: a novel, non-oxidative mechanism by which neutrophils focus and preserve catalytic activity of serine proteinases

Serine proteinases of human polymorphonuclear neutrophils play an important role in neutrophil-mediated proteolytic events; however, the non-oxidative mechanisms by which the cells can degrade extracellular matrix in the presence of proteinase inhibitors have not been elucidated. Herein, we provide the first report that human neutrophils express persistently active cell surface-bound human leukocyte elastase and cathepsin G on their cell surface. Unstimulated neutrophils have minimal cell surface expression of these enzymes; however, phorbol ester induces a 30-fold increase. While exposure of neutrophils to chemoattractants (fMLP and C5a) stimulates modest (two- to threefold) increases in cell surface expression of serine proteinases, priming with concentrations of lipopolysaccharide as low as 100 fg/ml leads to striking (up to 10-fold) increase in chemoattractant-induced cell surface expression, even in the presence of serum proteins. LPS-primed and fMLP-stimulated neutrophils have approximately 100 ng of cell surface human leukocyte elastase activity per 10(6) cells. Cell surface- bound human leukocyte elastase is catalytically active, yet is remarkably resistant to inhibition by naturally occurring proteinase inhibitors. These data indicate that binding of serine proteinases to the cell surface focuses and preserves their catalytic activity, even in the presence of proteinase inhibitors. Upregulated expression of persistently active cell surface-bound serine proteinases on activated neutrophils provides a novel mechanism to facilitate their egress from the vasculature, penetration of tissue barriers, and recruitment into sites of inflammation. Dysregulation of the cell surface expression of these enzymes has the potential to cause tissue destruction during inflammation.     

Further evidence for a cell surface proteinase essential to the growth of cultured fibroblasts

Specific antibodies and protein proteinase inhibitors will inhibit cell-surface proteinase activity on human fibroblasts and cause a concomitant inhibition of DNA synthesis and of cell multiplication. An insolubilized proteinase inhibitor also inhibits cell multiplication. The same reagents partially inhibit the multiplication of mouse L cells, both in monolayer and suspension culture, and inhibit the mitogenic effect of epidermal growth factor (EGF) on both types of cell.     

Free radicals inactivate human neutrophil elastase and its inhibitors with comparable efficiency

Free radicals produced in a Fenton reaction (H202/Cu), modelling some xenobiotic and cell-mediated inflammatory affronts, efficiently inactivated the elastase-inhibitor eglin, but equally, human neutrophil elastase itself. Elastase activity was not regenerated from proteinase/inhibitor complexes during radical attack. Three different elastase inhibitors, eglin, secretory leukocyte proteinase inhibitor and alpha-1-proteinase inhibitor were all similarly sensitive to inactivation. Unlike certain oxidants which can selectively inactivate alpha-1-proteinase inhibitor, free radicals may influence comparably the availability of both proteinase inhibitors and their targets.     

Proteinases and proteinase inhibitors as modulators of animal cell growth.

1. Three distinct lines of evidence indicate that proteinases are involved in the growth of cultured animal cells. 2. Endogenous growth-related proteinases have been identified, and exogenous proteinases can also stimulate cell proliferation, probably by different mechanisms. In some cases, higher concentrations of proteinases are cytotoxic. 3. Proteinase inhibitors, not surprisingly, inhibit cell growth, but can also be mitogenic at sub-inhibitory concentrations. 4. There must, therefore, be at least three major cellular processes in which proteinases or proteinase inhibitors can operate to exert a direct effect on cell proliferation. 5. Details of one action of an exogenous proteinase, typified by thrombin and the thrombin receptor, are becoming clear at the molecular level, but thrombin probably activates at least two intracellular signalling systems, as well as acting as a growth inhibitor in some situations. 6. Much remains to be investigated in other examples.     

人胎肝中肝细胞生长因子生物活性的研究

人胎肝细胞裂解液经膜超滤,在分子量10～30kD组分中可检测出人肝细胞生长因子(hHGF)活性。hHGF为一热稳定的蛋白质或多肽类物质。它可特异地刺激肝来源细胞~3H-TdR掺入的增加,并且存在量效依赖关系,而对非肝来源细胞的DNA合成无刺激作用。hHGF的生物活性及理化性质与某些已知因子,如胰岛素、胰高血糖素、血小板来源的生长因子、表皮生长因子及增殖刺激因子等有所不同。     

Role of VEGFR‐1 in melanoma acquired resistance to the BRAF inhibitor vemurafenib

The vascular endothelial growth factor receptor‐1 (VEGFR‐1) is a tyrosine kinase receptor frequently expressed in melanoma. Its activation by VEGF‐A or placental growth factor (PlGF) promotes tumour cell survival, migration and invasiveness. Moreover, VEGFR‐1 stimulation contributes to pathological angiogenesis and induces recruitment of tumour‐associated macrophages. Since melanoma acquired resistance to BRAF inhibitors (BRAFi) has been associated with activation of pro‐angiogenic pathways, we have investigated VEGFR‐1 involvement in vemurafenib resistance. Results indicate that human melanoma cells rendered resistant to vemurafenib secrete greater amounts of VEGF‐A and express higher VEGFR‐1 levels compared with their BRAFi‐sensitive counterparts. Transient VEGFR‐1 silencing in susceptible melanoma cells delays resistance development, whereas in resistant cells it increases sensitivity to the BRAFi. Consistently, enforced VEGFR‐1 expression, by stable gene transfection in receptor‐negative melanoma cells, markedly reduces sensitivity to vemurafenib. Moreover, melanoma cells expressing VEGFR‐1 are more invasive than VEGFR‐1 deficient cells and receptor blockade by a specific monoclonal antibody (D16F7 mAb) reduces extracellular matrix invasion triggered by VEGF‐A and PlGF. These data suggest that VEGFR‐1 up‐regulation might contribute to melanoma progression and spreading after acquisition of a drug‐resistant phenotype. Thus, VEGFR‐1 inhibition with D16F7 mAb might be a suitable adjunct therapy for VEGFR‐1 positive tumours with acquired resistance to vemurafenib.     

Investigations into the nature of growth-related proteolysis in human fibroblasts

Previous experiments have shown that cultured human fibroblasts possess a cell-surface proteinase (the growth-related proteinase; GRP) which is essential to cell proliferation. In the present work, proteinase inhibition in defined and complex serum-free media and in pre-conditioned normal medium, still resulted in a corresponding inhibition of cell proliferation. Proteinase inhibition also blocked the action of a range of peptide growth factors and of a phorbol ester. Elevated extracellular calcium concentrations were still mitogenic in the presence of proteinase inhibitors. Proteinase inhibition did not affect the mobilisation of intracellular calcium, nor the metabolism of inositol phosphate derivatives in response to a mitogenic stimulus.     

Autophagy blockade enhances HDAC inhibitors' pro-apoptotic effects: potential implications for the treatment of a therapeutic-resistant malignancy

Malignant peripheral nerve sheath tumors (MPNSTs) are aggressive, highly metastatic, poor prognosis tumors for which effective therapeutic strategies are currently lacking. We summarize recent work focusing on preclinical evaluation of histone deacetylase inhibitors (HDACis) for the treatment of MPNST. HDACis are a novel drug class with anti-cancer therapeutic promise. Using human MPNST cell lines and xenograft models we found that a MPNST subset is highly sensitive to HDACis, whereas a fraction is relatively resistant. HDACis were found to induce autophagy in all MPNST cells in vitro and in vivo; in "sensitive" MPNST cells autophagy occurs in concert with apoptosis, whereas unopposed autophagy develops in "resistant" cells. Genetic and chemical autophagy blockade significantly enhances HDACi-induced apoptotic cell death in both resistant and sensitive cells. Combined chloroquine and HDACi treatment abrogates growth of human MPNST xenografts and lung metastases. The potential role of autophagy in cancer therapeutic response remains controversial; however, our study supports HDACi-induced autophagy as a MPNST survival mechanism. These data also imply that the consequences of drug-induced autophagy may be compound-type, tumor-type, or even molecular context-dependent, suggesting a complex crosstalk between autophagy and apoptosis. Clinical trials evaluating HDACis with autophagy blockade for therapy of MPNST therefore merit consideration.     

Autophagy blockade enhances HDAC inhibitors’ pro-apoptotic effects

Malignant peripheral nerve sheath tumors (MPNSTs) are aggressive, highly metastatic, poor prognosis tumors for which effective therapeutic strategies are currently lacking. We summarize recent work focusing on preclinical evaluation of histone deacetylase inhibitors (HDACis) for the treatment of MPNST. HDACis are a novel drug class with anti-cancer therapeutic promise. Using human MPNST cell lines and xenograft models we found that a MPNST subset is highly sensitive to HDACis, whereas a fraction is relatively resistant. HDACis were found to induce autophagy in all MPNST cells in vitro and in vivo; in “sensitive” MPNST cells autophagy occurs in concert with apoptosis, whereas unopposed autophagy develops in “resistant” cells. Genetic and chemical autophagy blockade significantly enhances HDACi-induced apoptotic cell death in both resistant and sensitive cells. Combined chloroquine and HDACi treatment abrogates growth of human MPNST xenografts and lung metastases. The potential role of autophagy in cancer therapeutic response remains controversial; however, our study supports HDACi-induced autophagy as a MPNST survival mechanism. These data also imply that the consequences of drug-induced autophagy may be compound-type, tumor-type, or even molecular context-dependent, suggesting a complex crosstalk between autophagy and apoptosis. Clinical trials evaluating HDACis with autophagy blockade for therapy of MPNST therefore merit consideration.     

Differential radiosensitization of human tumour cells by 3-aminobenzamide and benzamide: inhibitors of poly(ADP-ribosylation)

The effect of 3-aminobenzamide (3AB) and benzamide (BZ) (inhibitors of poly(ADP-ribose) synthetase) on radiosensitivity was investigated in normal human fibroblasts and three human cell lines established from tumours with varying degrees of clinical radiocurability. The human tumour cell lines selected were: Ewing's sarcoma, a bone tumour usually considered radiocurable with moderate radiation doses; lung adenocarcinoma, a tumour considered radiocurable with high doses of radiotherapy; and osteosarcoma, a very resistant tumour which is rarely controlled by standard doses of radiotherapy. Poly(ADP-ribose) synthetase inhibitors were added to cultures 2 h prior to irradiation and removed 24 h after. Inhibitors were used at doses producing little or no toxicity in cells. In the presence of these inhibitors, a differential radiosensitization was observed. Ewing's sarcoma cells and normal human fibroblasts were sensitized to an equal extent by either 8 mM 3AB or 4 mM BZ. However, no sensitization was observed at these concentrations in the lung adenocarcinoma cells or osteosarcoma cells. The degree of radiosensitization in vitro by 3AB and BZ correlates well with the clinical radiocurability of these tumours in vivo.     

Effects of proteinase inhibitors on the cutaneous lesion ofSporothrix schenckii inoculated hairless mice

Sporothrix schenckii produces two extracellular proteinases, namely proteinase I and II. Proteinase I is a serine proteinase, inhibited by chymostatin. On the other hand, proteinase II is an aspartic proteinase, inhibited by pepstatin. The addition of either pepstatin or chymostatin to the culture medium did not inhibit cell growth, however the addition of both inhibitors strongly inhibited fungal growth. Accordingly, this suggested that extracellular proteinases play an important role in cell growth and that such cell growth may be suppressed if these proteinases are inhibited. In order to substantiate this speculation in sporotrichosis, the effects of proteinase inhibitors on the cutaneous lesions of mice were studied. Ointments containing 0.1% chymostatin, 0.1% pepstatin and 0.1% chymostatin-0.1% pepstatin were applied twice daily on the inoculation sites of hairless mouse skin, and the time courses of the lesions examined. The inhibitory effect in vivo onS. schenckii was similar to that demonstrated in our previous in vitro study. Compared to the control, the time course curve of the number of nodules present after the application of either pepstatin or chymostatin was slightly suppressed. The application of both pepstatin and chymostatin, however, strongly suppressed nodule formation. This study not only confirmed the role of 2 proteinases ofS, schenckii for fungal growth in vivo, but also may lead to their use as new topical therapeutic agents.     

Amine dependence of proliferative activity in two transplantable lines of mouse colonic carcinoma

Serotonin, histamine and their antagonists have previously been shown to influence both the cell proliferation rate and the volumetric growth rate of colonic tumours. Of these earlier studies, those on cell proliferation could not distinguish between direct effects on tumour cells and indirect effects on the host, whereas those on the volumetric growth rate of tumours, whilst suggesting an outcome related to the individual properties of the tumour rather than the host, could not distinguish between influences on cell gain, cell loss or stromal changes. In an attempt to distinguish between these possibilities the current experiments on the mitotic rate in two lines of transplantable mouse colonic carcinoma were undertaken. One line of tumour proved to be sensitive to inhibition by a histamine H2 receptor antagonist and a dopamine D2 antagonist but resistant to serotonin antagonists; the inhibition by histamine antagonists was surmountable by co-administration of histamine. The other line proved to be highly sensitive to the inhibitory effects of serotonin antagonist and less so to antagonists of the other two amines and in this case the effect of serotonin antagonists was surmountable by serotonin. These results suggest that the variations between different colonic tumours in the response to amine antagonists is due to differences in the extent of inhibition of cell proliferation rather than differences in cell loss or stromal effects. Thus it appears likely that amine antagonists are able to directly interfere with the proliferation of some colonic tumour cells.     

Mass spectrometry‐based secretome analysis of non‐small cell lung cancer cell lines

Tyrosine kinase inhibitors, such as erlotinib, display reliable responses and survival benefits for the treatment of human non‐small cell lung cancer (NSCLC) patients. However, primary or acquired resistance limits their therapeutic success. In this study, we conducted in‐depth mass spectrometric analyses of NSCLC cell secretomes. To identify secreted proteins that are differentially regulated in erlotinib‐sensitive (PC‐9) and ‐resistant (PC‐9ER) NSCLC cell lines, SILAC experiments were performed. On average, 900 proteins were identified in each sample with low variations in the numbers of identified proteins. Fourteen proteins were found to be differently regulated among erlotinib‐sensitive and ‐resistant NSCLC cell lines, with five proteins (tissue‐type plasminogen activator, epidermal growth factor receptor, urokinase‐type plasminogen activator, platelet‐derived growth factor D, and myeloid‐derived growth factor) showing the most prominent regulation. Tissue‐type plasminogen activator (t‐PA) was up to 10‐times upregulated in erlotinib‐resistant NSCLC cells compared with erlotinib‐sensitive cells. T‐PA is an established tumor marker for various cancer types and seems to be a promising prognostic marker to differentiate erlotinib‐sensitive from erlotinib‐resistant NSCLC cells. To gain further insights into t‐PA‐regulated pathways, a t‐PA variant was expressed in E. coli cells and its interactions with proteins secreted from erlotinib‐sensitive and ‐resistant NCSLC cells were studied by a combined affinity enrichment chemical cross‐linking/mass spectrometry (MS) approach. Fourteen proteins were identified as potential t‐PA interaction partners, deserving a closer inspection to unravel the mechanisms underlying erlotinib resistance in NSCLC cells.     

An assay for proteinases and their inhibitors based on DNA/ethidium bromide fluorescence

Proteinases and their inhibitors have become the subject of intense research interest recently, since they control a multitude of very important biological processes, from the development of lambda phage to hypertension in humans. We have developed a simple and sensitive assay for detecting the activity of proteinases and of their proteinase inhibitors. The assay is based on ethidium bromide fluorescence, according to the following principles: (i) Ethidium bromide increases its fluorescence by 25-fold when it intercalates between base pairs of double-stranded DNA. (ii) Histones prevent this large increase in fluorescence by binding with high affinity to DNA thus blocking ethidium bromide intercalation. (iii) A proteinase that digests histones will make more DNA available for ethidium bromide intercalation, thereby producing an increase of fluorescence. Proteinase activity can easily be determined, in the presence of a DNA/histone complex, from the rate of ethidium fluorescence increase. In contrast, activity of a proteinase inhibitor is quantitated by the inhibition of fluorescence gain in the presence of a known amount of proteinase. This assay is rapid, simple, inexpensive, and, at the same time, accurate and sensitive enough to allow quantitation of nanogram amounts of various broad-specificity proteinases and their inhibitors. We show some possible applications of the assay (i) in testing column fractions during protein purifications, (ii) quantitation of alpha 1-antitrypsin in human serum, and (iii) detection of proteinase activity in cell extracts.