Expression, subcellular localisation, and possible roles of dipeptidyl peptidase 9 (DPP9) in murine macrophages.

Dipeptidyl peptidase 9 (DPP9) is a peptidase of the DPPIV gene family, and its role in immune responses has been reported. In this study, we compared the messenger RNA expression profile of DPP9 to that of the related DPP8 and DPPIV in murine haematopoietic and lymphatic tissues. A similar order of expression levels was observed for all 3 peptidases: peritoneal macrophages < bone marrow < spleen ≤ lymph nodes. Also, we examined the subcellular localisation of DPP9 and its possible role(s) in J774 cell line of macrophage origin. DPP9 was dominantly expressed intracellularly. DPPIV-like enzymatic activity was mostly present in cytoplasm, but also in cell membranes and organelles/vesicles. Decreased expression of DPP9 was observed upon activation of J774 cells by combined treatment with interferon gamma and lipopolysaccharide. Changes induced by DPP9 gene silencing in J774 cells suggest possible role of DPP9 in regulation of proliferation and activation status. The colocalisation of DPP9 with endocytosed DQ-OVA demonstrated in endosomes of J774 cells might suggest the role of DPP9 in peptide processing within endosomal/vesicular compartment.

Dipeptidyl peptidase 9 (DPP9) in human skin cells.

BACKGROUND: Dipeptidyl peptidase 9 (DPP9) is a relatively new member of the DPPIV family of prolyl dipeptidases which is ubiquitously expressed. Its role in regulation of immune responses and proliferation of epithelial carcinoma cells was reported. There is no data on possible role of DPP9 expressed in skin epithelial cells (keratinocytes) and in dermal fibroblasts. MATERIALS AND METHODS: Transcriptional and protein expression of DPP9 and DPPIV was examined in fibroblasts and keratinocytes isolated from normal human skin. Localization of DPP9 and its sub-localization in Golgi were determined by immunocytochemistry staining. DPPIV-like enzyme activity was determined in cell lysates and in isolated cell fractions containing membranes (M), cytosol (C) and content of organelles/endosomes/vesicles (V). Relative contribution of DPPIV and DPP8/9 enzyme activity in these fractions was determined by using selective inhibitors: sitagliptin (selective for DPPIV) and 1G244 (selective for DPP9 and a highly homologous DPP8). Possible roles of DPP8/9 via its enzyme activity were analysed by assessment of survival and proliferative capacity of fibroblasts and HaCaT cells of keratinocyte origin in the presence of the inhibitors. Possible role of DPP9 in cell migration and/or adhesion was analysed in fibroblasts and HaCaT cells after DPP9 gene silencing. RESULTS: Fibroblasts and keratinocytes exerted comparable level of DPP9 both at transcriptional and protein level. Fibroblasts strongly expressed DPPIV, whereas in keratinocytes DPPIV expression was low. DPP9 expression was found in cytosol and in perinuclear area of some fibroblasts, or in scattered pattern of keratinocytes, as well as in nuclei of some cells. Only low level of DPP9 sub-localization within Golgi was observed in fibroblasts and keratinocytes. DPPIV-like enzyme activity was about 5 times higher in lysates of fibroblasts than of HaCaT cells. In fibroblasts DPPIV-like enzyme activity was mainly (65%) found in the fraction containing cell membranes (M) and was predominantly (86.9%) due to DPPIV. In contrast, in HaCaT cells the DPPIV-like enzyme activity was mainly (84.2%) found in cytosol (C) and was predominantly (95.6%) due to DPP8/9. Survival and the proliferative capacity were significantly diminished in the presence of 10µM 1G244, both in fibroblasts and in HaCaT cells, suggesting possible role of DPP8/9 enzyme activity in regulation of survival and proliferation of these cells. DPP9 gene silencing resulted in decreased adhesion of fibroblasts, as well as in decreased migration of fibroblasts and HaCaT cells. Accumulation of DPP9 on the edges of plasma membranes of fibroblasts and keratinocytes adhering to surface supports the idea of possible role of DPP9 in cell adhesion. CONCLUSIONS: This is the first study showing protein expression, sub-localization and possible biological roles of DPP9 expressed in isolated human skin cells. The data may be relevant for development of new drugs against skin diseases by targeting DPP9 expressed in the skin cells.

Heterozygous carriage of a dysfunctional Toll-like receptor 9 allele affects CpG oligonucleotide responses in B cells.

Toll-like receptors (TLR) are employed by the innate immune system to detect microbial pathogens based on conserved microbial pathogen molecules. For example, TLR9 is a receptor for CpG-containing microbial DNA, and its activation results in the production of cytokines and type I interferons from human B cells and plasmacytoid dendritic cells, respectively. Both are required for mounting an efficient antibacterial or antiviral immune response. These effects are mimicked by synthetic CpG oligodeoxynucleotides (ODN). Although several hyporesponsive TLR9 variants have been reported, their functional relevance in human primary cells has not been addressed. Here we report a novel TLR9 allele, R892W, which is hyporesponsive to CpG ODN and acts as a dominant-negative in a cellular model system. The R892W variant is characterized by increased MyD88 binding and defective co-localization with CpG ODN. Whereas primary plasmacytoid dendritic cells isolated from a heterozygous R892W carrier responded normally to CpG by interferon-α production, carrier B cells showed impaired IL-6 and IL-10 production. This suggests that heterozygous carriage of a hyporesponsive TLR9 allele is not associated with complete loss of TLR9 function but that TLR9 signals elicited in different cell types are regulated differently in human primary cells.

IFN-γ up-regulates κ opioid receptors (KOR) on murine macrophage cell line J774.

In this study we examined basal and IFN-γ-regulated expression of kappa opioid receptors (KOR) on cells of a murine macrophage cell line, J774. Basal KOR expression was found both at transcriptional and protein levels. KOR protein was predominantly located intracellular (86.4±12.9% positive cells; n=4), and only in minority of J774 cells (9.1±6.4% positive cells; n=4) on plasma membranes, as revealed by Fluorescence-Activated Cell Sorter (FACS) analysis and immunocytochemistry. Proinflammatory cytokine IFN-γ up-regulated KOR expression both at transcriptional (up to 24 times) and protein levels (up to 4.2 times). KOR expressed on J774 cells was functionally active as its ligation with Dynorphin-A(1-17) (100 nM and 1 µM) triggered phosphorylation of ERK1/2. Involvement of KOR in the Dynorphin-A(1-17)-induced triggering of ERK1/2 phosphorylation is suggested since truncated Dynorphin-A(2-17), which does not bind to KOR, was ineffective. Collectively, we have shown for the first time that cells of J774 cell line constitutively express functionally active KOR, which triggers signalization via ERK1/2 phosphorylation and which could be up-regulated by proinflammatory IFN-γ. The data may be relevant for better understanding of the role of KOR and their endogenous ligand Dynorphin-A in regulation of inflammatory and immune responses.

Prognostic value of matrix metalloproteinase-2 (MMP-2), matrix metalloproteinase-9 (MMP-9) and aminopeptidase N/CD13 in breast cancer patients.

The aim of this study was to analyse the expression of matrix metalloproteinase-2(MMP-2), matrix metalloproteinase-9 (MMP-9) and aminopeptidase APN/CD13 in breast carcinoma samples, and their possible prognostic value in breast cancer patients. The expression of MMP-2, MMP-9 and APN/CD13 in tumor cells was analysed in 138 breast carcinomas by immunohistochemical staining of tumor cells using the semiquantitative method for the detection of cytoplasmic and membrane reaction in tumor cells as well as stromal cells positivity. MMP-2 was positive in tumor cells of 52.9% patients and in stromal cells of 74.6% patients, while MMP-9 positive tumor and stromal cells were found in 84.8 and 63.8% patients, respectively. Tumor cell APN/CD13 expression was found in 36.2% patients. Stromal cell MMP-2 expression correlated significantly with tumor size and neoangiogenesis. A positive correlation was also observed between tumor cell MMP-9 expression and hormone receptor status. Stromal cell coexpression of MMP-2/MMP-9 correlated significantly with tumor size. APN/CD13 expression in tumor cells significantly correlated with tumor type and neoangiogenesis. Overall survival was significantly shorter in patients with MMP-2, MMP-2/MMP-9 positive tumor cells, and tended to be shorter in patients with APN/CD13 positive tumor cells. Coexpression of MMP-2/MMP-9 in tumor cells was an independent risk factor for patient survival (OD = 13.9). Our results suggest that MMP-2, MMP-9, APN/CD13 expression and MMP-2/MMP-9 coexpression in combination with other standard prognostic factors can serve as a poor prognostic factor in the evaluation of breast cancer prognosis.

Expression, regulation and functional activities of aminopeptidase N (EC 3.4.11.2; APN; CD13) on murine macrophage J774 cell line.

Aminopeptidase N (APN; CD13) is a ubiquitous membrane-bound enzyme. Expressed on haematopoietic cells APN participates in inflammatory and immune responses by regulating local concentration of chemotactic peptides and by fine-tuning antigen presentation. The data of this study have shown for the first time that cells of murine macrophage line, J774, often used as a model cell line, express CD13 both at transcriptional level and at the level of membrane protein with aminopeptidase N (APN) activity. The level of transcriptional expression of CD13/APN on J774 cells was compared to that found on normal cells participating in immune responses. The highest CD13/APN level was found in peritoneal macrophages, followed by J774 cells and splenocytes, whereas lymph node, thymus and bone-marrow cells expressed low level of CD13/APN mRNA. Further, the CD13 (mRNA, protein and APN) on J774 cells could be up-regulated by pro-inflammatory IFN-γ which is in agreement with the known role of CD13/APN in inflammatory responses. Co-regulation of CD13 with MHC-II and CD86 is in line with the reported role of APN expressed on human cells in antigen presentation. CD13 on J774 cells co-localize with mannose receptors (MR), and co-internalize upon MR ligation by ovalbumin, suggesting a new function of CD13 in MR-mediated phagocytosis. That function of CD13 is independent of APN enzyme activity. Anti-inflammatory drug dexamethasone diminished the IFN-γ-induced increase of CD13. The observed down-regulation of CD13 on J774 cells by dexamethasone might be relevant as a possible mechanism involved in action of anti-inflammatory drugs on normal macrophages.

Vincristine-resistant human laryngeal carcinoma cells demonstrate increased Rous sarcoma virus promoter activity.

AIMS: Gene therapy is a candidate approach for treating cancer patients whose tumors have developed resistance to some drugs. Our study aims to examine possible alteration in Ad5RSVßgal-mediated transgene expression in a vincristine-resistant cells (VK2) derived from the human laryngeal carcinoma cell line HEp2, and the underlying mechanism(s) thereof. MAIN METHODS: Adenovirus-mediated transgene expression in HEp2 and VK2 cells was measured by ß-gal staining. Semiquantitative PCR was used to evaluate attachment of adenovirus to the cell surface and adenovirus internalization into cells. After transfection of cells with plasmid DNA, promoter activity was measured by semiquantitative RT-PCR. KEY FINDINGS: We show here that VK2 cells exhibited increased Ad5RSVßgal-mediated transgene expression, despite moderately decreased Ad5RSVßgal attachment and internalization, as compared with HEp2 cells. The increased transgene expression was also observed with a virus (Ad5FbΔ639RSVßgal) that does not use the coxsackie-adenovirus receptor (CAR), suggesting that increased transgene expression is independent of CAR. Upon transfection of VK2 cells with a plasmid expressing a reporter gene under the control of the RSV promoter or a plasmid containing the complete Ad5RSVßgal genome, RSV promoter activity was 33- and 4.7-fold higher, respectively, than in HEp2 cells. SIGNIFICANCE: The increased Ad5RSVßgal-mediated transgene expression in the VK2 cells is due to the increased RSV promoter activity in VK2 cells. Our results point out that (i) drug-resistance may be accompanied with an alteration in promoter activity; (ii) the proper choice of promoter could contribute to a decrease in the vector dose required to achieve a therapeutic effect during gene therapy.

Differential role of alpha(v)beta(3) and alpha(v)beta(5) integrins in internalization and transduction efficacies of wild type and RGD4C fiber-modified adenoviruses.

In order to analyze the role of alpha(v)beta(3) and alpha(v)beta(5) integrins in gene transfer by adenovirus-based vectors, an RGD4C motif was inserted into the HI-loop of wild type or shortened fiber protein of human adenovirus of serotype 5, thereby creating Ad5RGD4C and Ad5Delta639RGD4C vectors, respectively. Infection by the latter is independent of the Coxsackie B adenovirus receptor. Internalization and transduction of these vectors and were investigated in several stably transfected cell clones derived from a human laryngeal carcinoma cell line (HEp2) expressing different ratios of alpha(v)beta(5) and alpha(v)beta(3) integrins. We show that alpha(v)beta(3) is more successful than alpha(v)beta(5) in: (i) mediating adenovirus internalization and transduction when the RGD motif is present only in the penton base and (ii) mediating internalization and transduction by RGD4C-fiber modified adenoviruses. The highest amount of internalized virus was found in the cell clone in which alpha(v)beta(3) integrin predominated over alpha(v)beta(5) integrin (as judged by the % of cells expressing alpha(v)beta(3) and alpha(v)beta(5) integrins). However the level of transgene expression in this cell line was even lower than that in parental HEp2 cells which do not express alpha(v)beta(3) integrin. This discrepancy between internalization and transgene expression (transduction) is likely due to the crucial role of alpha(v)beta(5) in membrane permeabilization, indicating that alpha(v)beta(5) integrin is a limiting factor for Ad5-mediated gene transfer. We conclude that alpha(v)beta(3) integrin is an efficient adenovirus internalization receptor, but cannot functionally replace alpha(v)beta(5) in endosomal release.

[Psychoneuroimmunology--regulation of immunity at the systemic level]. / Psihoneuroimunologija--regulacija imunosti na razini organizma kao cjeline.

Innate and acquired immune reactions are controlled by their intrinsic regulatory mechanisms, ie. by an array of cytokines that mediate communication among cells of the immune system itself and with other cells and tissues, e. g. in areas of inflammation. In addition, the immune system is also subjected to systemic regulation by the vegetative and endocrine systems since immune cells express receptors for neurotransmitters and hormones. Neuroendocrine signals may enhance or suppress the immune reaction, accelerate or slow it, but do not affect specificity. Various stressful factors, including the psychosocial ones, affect immunity. In turn, cytokines generated by the immune system influence hormonal secretion and central nervous system, producing specific behavioral changes (the "sickness behavior") accompanying infectious and inflammatory diseases. That includes somnolence, loss of apetite, depression or anxiety and decrease of cognitive abilities, attention and memory. Local immune systems in skin and mucosa are also subjected to systemic neuroendocrine regulation and possess intrinsic neuroregulatory networks as well. These mechanisms render skin and respiratory and digestive tracts responsive to various forms of stress. Examples are neurodermitis, asthma and ulcerative colitis. In children, the immune and the neuroendocrine systems are still developing, particularly in fetal, neonatal and early infant periods, and exposure to stressful experiences at that time may result in late consequences in the form of deficient immunity or greater risks for allergic or autoimmune reactions. Recognition of the participation of neuroendocrine mechanisms in regulation of immunity helps us understand alterations and disturbances of immune reactions under the influence of stressful factors but so far has not produced reliable therapeutic implications. Psychosocial interventions involving the child and its family may be useful.

Regulation of aminopeptidase N (EC 3.4.11.2; APN; CD13) on the HL-60 cell line by TGF-beta(1).

Membrane-bound peptidases interfere with cellular growth, differentiation, activation and death by fine-tuning local concentrations of various signaling peptides such as the growth factors, hormones, chemokines and cytokines. We examined the effects of anti-inflammatory cytokine transforming growth factor-beta(1) (TGF-beta(1)) on the expression and activity of aminopeptidase N (APN), an ectoenzyme processing several signaling peptides. Myelo-monocytic HL-60 cell line having high basal APN activity corresponding to the membrane CD13 marker served as a model. Regulation of CD13/APN was assayed at the levels of mRNA and at the membrane marker CD13. Functional properties of CD13/APN were examined by measuring the enzyme activity, and the signal transduction ability, followed as Ca(++) mobilization triggered by APN-blocking WM-15 antibody. TGF-beta(1) at physiological concentrations (0.16 to 2.5 ng/mL) increased expression of CD13 both at mRNA and membrane protein level in a time- and concentration-dependent manner. Transcriptional activation of CD13 by TGF-beta(1) is suggested as actinomycin-D, an inhibitor of RNA synthesis, abrogated the TGF-beta(1)-induced up-regulation of CD13. Increased membrane CD13 expression was associated with an increase of its enzyme (APN) activity and with a decrease of its signal transduction ability. Anti-inflammatory cytokine TGF-beta(1) counteracted the effects of pro-inflammatory cytokine IFN-gamma on membrane CD13 expression in a time- and concentration-dependent fashion, suggesting a cytokine-regulated role of CD13/APN in inflammation. This is the first report on regulation of CD13/APN expression by TGF-beta(1) on immature cells of myelo-monocytic origin. As obtained with physiological concentrations of TGF-beta(1) these findings may be relevant for cytokine-regulated CD13/APN expression on mature myeloid cells in the course of inflammation.

Disulfide bond formation in NGR fiber-modified adenovirus is essential for retargeting to aminopeptidase N.

The peptide motif NGR (asparagine-glycine-arginine) is known to bind to aminopeptidase N (APN). We have constructed five adenoviruses (Ads) bearing NGR in the HI loop of the adenoviral fiber protein. We compared the targeting properties of the NGR peptide within different amino acid environments and showed that their cellular receptor(s) were not identical. Ads containing NGR within potentially cyclic sequences flanked by cysteines retargeted viruses mainly to APN, while Ads containing NGR within linear sequences not containing cysteines retargeted Ads mainly to alpha(v)beta(3) integrin, albeit with a lower affinity. Finally, we show evidence that disulfide bond formation within an Ad bearing the CDCNGRCFC sequence is essential for retargeting to APN, suggesting that this sequence does indeed assume a cyclic structure which facilitates NGR binding to APN. Therefore, our study underscores the importance of cysteine residues flanking targeting peptides for not only affinity but also specificity of the retargeted Ad.

Leber's hereditary optic neuroretinopathy (LHON) associated with mitochondrial DNA point mutation G11778A in two Croatian families.

Leber's hereditary optic neuroretinopathy (LHON) is manifested as a bilateral acute or subacute loss of central vision due to optic atrophy. It is linked to point mutations of mitochondrial DNA, which is inherited maternally. The most common mitochondrial DNA point mutations associated with LHON are G3460A, G11778A and T14484C. These mutations are linked with the defects of subunits of the complex I (NADH-dehydrogenase-ubiquinone reductase) in mitochondria. The G11778A mitochondrial DNA point mutation is manifested by a severe visual impairment. In this paper two Croatian families with the LHON G11778A mutation are presented. Three LHON patients from two families were younger males which had the visual acuity of 0.1 or below, the ophthalmoscopy revealed telangiectatic microangiopathy and papilloedema, while Goldmann kinetic perimetry showed a central scotoma. The mothers and female relatives were LHON mutants without symptoms, whereas their sons suffered from a severe visual impairment. Molecular diagnosis helps to explain the cause of LHON disease.

Signal transduction induced by opioids in immune cells: a review.

New data regarding signal transduction triggered by opioid ligands in immune cells are reviewed, and the signal transduction in neuronal cells is documented. Similar signaling pathways are induced by opioids in immune as well as neuronal cells. Opioids altered second messenger cAMP, intracellular calcium, and second messenger-induced kinases in immune cells. Met-enkephalin, preferentially delta-opioid, was bimodally regulated, while kappa-opioids inhibited these second messengers. delta-, kappa- and micro-opioids altered nitric oxide secretion, inducing cGMP as the second messenger in immune cells. Coupling of opioid agonists to opioid receptors activated mitogen-activated protein/extracellular signal-regulated protein kinases and various transcription factors in immune cells. Activator protein 1 (AP-1), c-fos, and nuclear factor-kappaB (NF-kappaB) are transcription factors shared by neuronal and immune cells. Delta-opioids activated AP-1, c-fos, activating transcription factor 2, Ikaros-1 and Ikaros-2 transcription factors in immune cells. Induction of kappa-opioid receptor gene by retinoic acid resulted in increased binding of Sp1 transcription factor to the promoter of the kappa-opioid receptor. Micro-opioids inhibited synthesis of common transcription factors AP-1, c-fos, NF-kappaB, and nuclear factor of activated T cells in activated or stimulated immune cells, whereas micro-opioids activated NF-kappaB, GATA-3, and Kruppel-like factor 7 transcription factors in non-stimulated immune cells.

Receptor-mediated down-regulation of neutral endopeptidase (NEP; EC 3.4.24.11; CD10) on immature B lymphocytes by dexamethasone.

Neutral endopeptidase is a membrane bound enzyme with various functions depending on cell type or tissue origin. Normal development and differentiation of immature B lymphocytes depends on expression of CD10/NEP on B cell progenitors and bone marrow stromal cells. Synthetic glucocorticoid dexamethasone (dex), an immunosuppressive and anti-inflammatory drug, was shown to be a potent modulator of CD10/NEP expressed on cells of non-hematopoietic origin. We investigated the effect of dex on expression of differentiation marker CD10/NEP on immature B cells. The drug was applied in concentrations corresponding to the physiological range. CD10/NEP was measured at three levels of expression: mRNA (by means of duplex PCR), membrane protein marker (FACS analysis) and enzyme activity (hydrolysis of a selective chromogenic substrate). Dex down-regulated CD10/NEP expression on immature B cell line NALM-6 in a concentration- and time-dependent fashion. The effect was detected at all three levels. Dex-induced CD10/NEP down-regulation was mediated via glucocorticoid receptors (GR), as it was fully abrogated by a GR antagonist, RU 38486. That occurred at all three levels. The mechanism of dex-induced CD10/NEP down-regulation is not likely to include selection of cells that are CD10low since the effect was partly reversible after the removal of dex. However, dex-induced CD10/NEP down-regulation did include decreased transcription of the CD10 mRNA. Transcriptional inhibitor actinomycin D completely abolished dex-induced CD10/NEP down-regulation. Since differentiation of normal B lymphocytes is associated with down-regulation of CD10/NEP, the data presented suggest that low, physiologically relevant concentrations of glucocorticoids (such as observed in acute stress) may play a regulatory role in normal development and maturation of B lymphocytes.

Regulation of aminopeptidase N (EC 3.4.11.2; APN; CD13) by interferon-gamma on the HL-60 cell line.

Membrane-bound peptidases play important roles in the regulation of local concentrations of various signalling peptides such as the growth factors, hormones, chemokines and cytokines. That is accomplished by means of their enzyme activity. Recently, membrane-bound peptidases have also been shown to act as receptors, receiving signals from as yet undefined ligands and transducing them into the cell interior. By using either or both of these mechanisms, peptidases interact with fundamental cellular functions: growth, differentiation, activation and death. This study addressed the effects of a T-cell derived cytokine, interferon-gamma (IFN-gamma) on the activity of aminopeptidase N (APN), an ectoenzyme processing several signal peptides. Cells of a myelo-monocytic cell line HL-60 were used as a model system, and APN was assayed at the levels of mRNA, its membrane marker CD13, and the enzyme activity. Regulation of CD13/APN by IFN-gamma was found at all three levels. The direction of regulation was time-dependent: an initial down-regulation seen 24 and 48 hrs after the onset of treatment with IFN-gamma was replaced by an up-regulation after 72 and/or 96 hrs. Up-regulation of CD13/APN observed after 96 hrs was preceded by an up-regulation of APN mRNA reaching its maximum after 72 hrs. The IFN-gamma-induced regulation of APN was due to membrane aminopeptidase N, since it could be completely abrogated by an APN blocking antibody WM-15. The delayed up-regulation of CD13/APN (observed after 72 and/or 96 hrs), required de novo protein synthesis as it could be abrogated by cycloheximide, an inhibitor of protein synthesis. Possible role of endogenous (IFN-gamma-induced) TGF-beta in mediating CD13/APN up-regulation could be excluded, since no TGF-beta was found in supernatants of IFN-gamma treated HL-60 cells. Thus, our data show regulation of CD13/APN on cells of myelo-monocytic origin by a T-cell derived cytokine, IFN-gamma. A similar mechanism might play a role in inflammation.

Increased adenoviral transduction efficacy in human laryngeal carcinoma cells resistant to cisplatin is associated with increased expression of integrin alphavbeta3 and coxsackie adenovirus receptor.

In our study, we investigated molecular mechanisms of increased adenoviral transduction efficacy in cisplatin-resistant human laryngeal carcinoma cells CA3ST as compared to parental cells HEp2. Using reverse transcription-PCR, the genes potentially implicated in adenoviral entry were screened. In cisplatin-resistant cells, only upregulation of alphavbeta3 integrin was detected, which was additionally confirmed by flow cytometry. Moderately increased expression of CAR was determined in cisplatin-resistant CA3ST cells using flow cytometry and measurement of wild-type adenovirus Ad5CMVbetagal attachment. In order to test the implication of alphavbeta3 integrin in transduction efficacy, 6 HEp2-derived alphavbeta3-expressing clones with graded expression of alphavbeta3 were isolated. To a certain degree of density, expression of alphavbeta3 positively correlated with Ad5CMVbetagal transduction efficacy (i.e., increased viral transduction), suggesting a role of alphavbeta3 in transduction efficacy. However, HEp2 clones with the highest alphavbeta3) expression were negatively correlated with transduction efficacy (i.e., decreased viral transduction). This was shown to be associated with downregulation of alphavbeta5 integrin, also involved in viral transduction, in clones with the highest alphavbeta3 expression. The implication of CAR in increased adenoviral transduction efficacy in cisplatin resistant CA3ST cells was further assessed by transduction experiments using adenoviral mutant Ad5FbDelta639 whose entry is only to a very small extent dependent on the presence of CAR. Indeed, Ad5FbDelta639 infected 2.5-fold more, in comparison to wild-type adenovirus, which infected 5-fold more efficiently resistant CA3ST cells than parental HEp2 cells, indicating that increased expression of CAR contributes to increased efficacy of adenoviral transduction. Thus, the data presented provide evidence that both alphavbeta3 integrin and CAR are involved in increased adenoviral transduction efficacy in cisplatin resistant CA3ST cells. These findings may have significant implications in human gene therapy using adenoviruses, especially in patients after unsuccessful cisplatin treatment.

Expression of CD13/aminopeptidase N and CD10/neutral endopeptidase on cultured human keratinocytes.

Keratinocytes actively participate in immune response and inflammation by secreting cytokines and chemokines. Membrane-bound peptidases serve as negative loop in controlling concentration of peptide signalling molecules. Recently, they have also been proposed as additional mechanism of cell-to-cell interaction and as signalling molecules. In this study, we examined expression of two membrane-bound peptidases: aminopeptidase N (APN; EC 3.4.11.2; CD13) and neutral endopeptidase (NEP; EC 3.4.24.11; CD10) on nonstimulated cultured human keratinocytes obtained from healthy skin. Membrane expression of CD13 and CD10 was analysed by FACS and fluorescent microscope. Functional properties of CD13 and CD10 were examined by testing their enzymatic activity towards selective substrates. The data were compared to those obtained on cultured nonstimulated human skin fibroblasts expressing both CD13/APN and CD10/NEP. Approximately one-third (i.e. 31.7+/-2.8%; n=3) of cultured keratinocyte express CD13 as compared to fibroblasts which are 100% CD13(+) (n=3). Density of CD13 on keratinocytes is several times lower than on fibroblasts. Membrane CD13 expression on keratinocytes was associated with significant enzyme activity, which on the basis of substrate (L-Ala-betaNA) and inhibitor (bestatin, actinonin) selectivity could be ascribed to aminopeptidase N. Kinetic parameter V(max) revealed lower APN activity expressed on keratinocytes than on fibroblasts (V(max)=1.49+/-0.08 microM/60 min/5 x 10(4) cells for keratinocytes, n=3 versus V(max)=4.09+/-0.76 microM/60 min/5 x 10(4) cells for fibroblasts, n=3). Likewise, K(m) value of APN on keratinocytes was lower as compared to fibroblasts (K(m)=0.307+/-0.090 mM for keratinocytes, n=3 versus K(m)=0.766+/-0.065 mM for fibroblasts, n=3). CD13 demonstrated on cultured keratinocytes, is at least partly due to its constitutive expression since it was also found on freshly prepared epidermal skin cells. Inhibitors of APN, actinonin, bestatin and substance-P, as well as the APN blocking antibody WM-15, decreased keratinocytes growth. In contrast to membrane CD13 associated with APN enzyme activity, neither membrane CD10, nor its enzyme (NEP) activity could be found on the same keratinocyte samples. In conclusion, functional CD13, associated with APN activity, was found on about one third of cultured, non-stimulated keratinocytes, whereas no CD10/NEP was found on the same keratinocyte samples. Role of APN in regulation of keratinocyte growth is suggested, as its inhibition resulted in decreased keratinocyte growth.

Dynorphin-A(1-17) decreases nitric oxide release and cytotoxicity induced with lipopolysaccharide plus interferon-gamma in murine macrophage cell line J774.

Nitric oxide (NO) is an important mediator of cytotoxicity caused by macrophages or by their resident counterpart in brain-glial cells. Modulation of NO release by both activated macrophages and glial cells has been reported in the presence of endogenous (peptide) and synthetic (non-peptide) agonists with kappa opioid-receptors (KOR) selectivity. The data obtained with macrophages and glial cells are contradictory: enhanced NO release by mouse macrophages was reported in the presence of synthetic agonist of KOR selectivity (Neuropeptides 32 (1998) 287), and decreased NO release by glial cells, in the presence of dynorphin-A((1-8)), endogenous opioid peptide with KOR selectivity (J. Biomed. Sci. 7 (2000) 241). In this study, we used a murine cell line J774 of macrophage origin and examined the effect of dynorphin-A((1-17)), endogenous opioid peptide with selectivity for KOR, on NO release induced with lipopolysaccharide (LPS) plus interferon-gamma (IFN-gamma). Dynorphin-A((1-17)) was chosen since in comparison to dynorphin-A((1-13)), it is more resistant to biodegradation (Peptides 17 (1996) 983), and its effects during prolonged treatment of cells could be more pronounced. The effect of dynorphin-A((1-17)) on NO release was compared to its effect on cytotoxicity, induced with LPS plus IFN-gamma. The data obtained have shown that activation-induced NO release by J774 cells is decreased in the presence of dynorphin-A((1-17)). This was associated with deceased LPS and IFN-gamma-induced cytotoxicity of J774 cells, suggesting their causal relationship. Neither of the observed effects of dynorphin-A((1-17)) could be prevented with the KOR selective antagonist, norbinaltorphimine, suggesting that they are mediated via non-opioid mechanism. By diminishing NO release dynorphin-A((1-17)) may affect cytotoxic ability of macrophages, but may also beneficially influence inflammation-induced damage of local tissue.

Dipeptidyl peptidase IV (DPPIV) enzyme activity on immature T-cell line R1.1 is down-regulated by dynorphin-A(1-17) as a non-substrate inhibitor.

In this study we examined surface expression of CD26 and the corresponding enzyme activity of dipeptidyl peptidase IV (DPPIV) on the cells of immature murine T-cell line, R1.1. The data obtained have shown that R1.1 cells express high density of surface CD26 as compared to normal thymus cells. This was associated with strong enzyme activity, which, based on substrates and inhibitor specificity, corresponded to DPPIV. The DPPIV enzyme activity of R1.1 cells was 10 times stronger than that found on normal murine thymus cells (V(max) = 39 micromol/min/10(6) cells, vs 3.7 micromol/min/10(6) cells, respectively). Upon activation with anti-CD3, up-regulation of both membrane CD26, as well as of DPPIV enzyme activity on R1.1 cells were observed. The finding of strong DPPIV on R1.1 cells makes them suitable model for testing putative substrates/inhibitors of the enzyme in its natural microenvironment. Since in addition to strong DPPIV, R1.1 cells also express kappa opioid receptors (KOR) [European Journal of Pharmacology 227 (1992) 257], we tested the effect of dynorphin-A(1-17), an endogenous opioid peptide with KOR selectivity, on DPPIV of R1.1 cells. Dynorphin-A(1-17) down-regulated DPPIV in a dose-dependent manner, with the potency similar to that of substance P, a known natural DPPIV substrate [Journal of Pharmacology and Experimental Therapeutics 260 (1992) 1257]. DPPIV down-regulation was resistant to bestatin and thiorphan, the inhibitors of two cell surface peptidases (APN and NEP, respectively) with potential of dynorphin-A(1-17) degradation, suggesting that the mechanism underlying the observed effect does not involve degradative products of dynorphin-A(1-17). DPPIV down-regulation was also resistent to KOR antagonist, NBI, suggesting that the mechanism underlying the observed phenomenon involves neither cointernalization of KOR and DPPIV. Collectively, cells of immature T cell line, R1.1 exert strong DPPIV enzyme activity, which could be down-regulated in the presence of dynorphin-A(1-17) by mechanism that presumably includes non-substrate inhibition. By down-regulating DPPIV, dynorphin-A(1-17) may indirectly affect activity and/or specificity of natural substrates of DPPIV, such as substance P, RANTES, and endomorphins.