In vitro immunosuppressive activity, isolation from pig liver microsomes and identification by electrospray ms-ms of a new FK-506 C19-C20 epoxide metabolite

In order to mediate their effects, cyclosporin A and FK-506 must each bind with high affinity to a cytosolic target protein that belongs to the immunophilin group. FK-506 forms complexes with the FK-506 binding protein FKBP, mainly FKBP-12, and these complexes possess immunosuppressive activity through their ability to interact with another target, the abundant serine threonine phosphatase calcineurin. Evaluating the immunosuppressive activities of the FK-506 metabolites by comparing them with known immunosuppressive agents via mixed lymphocyte reaction is of clinical importance because some metabolites may retain the pharmacological activity of the parent drug or exhibit cytotoxic effects. FK-506 is metabolized by the cytochrome P-450-dependent mixed-function oxygenase system in different animal species, and we are reporting the isolation from pig liver microsomes, and the identification by electrospray ms-ms, of the FK-506 C19-C20 epoxide metabolite. We found that this new metabolite exhibits reduced in vitro immunosuppressive activity compared with FK-506 and has approximately the same immunosuppressive potency as other known immunosuppressive drugs, such as cyclosporin A and IMM-125, a hydroxyethyl derivative of D-serine cyclosporin A. We were able to demonstrate that after incubation of the FK-506 metabolite in human mixed lymphocyte reaction cultures for 6 days, the compound was stable under the conditions used for cell culture as evidenced by electrospray-ms data. A weak direct cytotoxic effect (< 30% cell death) was observed only at the highest concentrations (2500 and 5000 ng/ml), which shows that the mixed lymphocyte reaction inhibition cannot be due to a toxic effect.     

Amyloid precursor protein processing in sterol regulatory element-binding protein site 2 protease-deficient Chinese hamster ovary cells

Amyloid peptides of 39-43 amino acids (Abeta) are the major constituents of amyloid plaques present in the brains of Alzheimer's (AD) patients. Proteolytic processing of the amyloid precursor protein (APP) by the yet unidentified beta- and gamma-secretases leads to the generation of the amyloidogenic Abeta peptides. Recent data suggest that all of the known mutations leading to early onset familial AD alter the processing of APP such that increased amounts of the 42-amino acid form of Abeta are generated by a gamma-secretase activity. Identification of the beta- and/or gamma-secretases is a major goal of current AD research, as they are prime targets for therapeutic intervention in AD. It has been suggested that the sterol regulatory element-binding protein site 2 protease (S2P) may be identical to the long sought gamma-secretase. We have directly tested this hypothesis using over-expression of the S2P cDNA in cells expressing APP and by characterizing APP processing in mutant Chinese hamster ovary cells that are deficient in S2P activity and expression. The data demonstrate that S2P does not play an essential role in the generation or secretion of Abeta peptides from cells, thus it is unlikely to be a gamma-secretase.     

Physical interaction of ApoE with amyloid precursor protein independent of the amyloid Abeta region in vitro

Variation at the APOE gene locus has been shown to affect the risk for Alzheimer's disease. To gain deeper insight into the postulated apoE-mediated amyloid formation, we have characterized the three common apoE isoforms (apoE2, apoE3, and apoE4) regarding their binding to amyloid precursor protein (APP). We employed the yeast two-hybrid system and co-immunoprecipitation experiments in cell culture supernatants of COS-1 cells, ectopically expressing apoE isoforms and APP751 holoprotein or a COOH-terminal Abeta deletion mutant protein, designated APPtrunc. We found that all three apoE isoforms were able to bind APP751 holoprotein in an Abeta-independent fashion. The interacting domains could be mapped to the NH2 termini of APP (amino acids 1-207) and apoE (amino acids 1-191). As a functional consequence of this novel APP751 ectodomain-mediated apoE binding, the secretion of soluble APP751 is differentially affected by distinct apoE isoforms in vitro, suggesting a new "chaperon-like" mechanism by which apoE isoforms may modulate APP metabolism and consequently the risk for Alzheimer's disease.     

Protein kinase C activation increases release of secreted amyloid precursor protein without decreasing Abeta production in human primary neuron cultures

Overexpression and altered metabolism of amyloid precursor protein (APP) resulting in increased 4 kDa amyloid beta peptide (Abeta) production are believed to play a major role in Alzheimer's disease (AD). Therefore, reducing Abeta production in the brain is a possible therapy for AD. Because AD pathology is fairly restricted to the CNS of humans, we have established human cerebral primary neuron cultures to investigate the metabolism of APP. In many cell lines and rodent primary neuron cultures, phorbol ester activation of protein kinase C (PKC) increases the release of the secreted large N-terminal fragment of amyloid precursor protein (sAPP) and decreases Abeta release (; ; ). In contrast, we find that PKC activation in human primary neurons increases the rate of sAPP release and the production of APP C-terminal fragments and 4 kDa Abeta. Our results indicate species- and cell type-specific regulation of APP metabolism. Therefore, our results curtail the use of PKC activators in controlling human brain Abeta levels.     

Amyloid load and neural elements in Alzheimer's disease and nondemented individuals with high amyloid plaque density

The amyloid burden and relationship between amyloid deposits and neural elements were investigated in sections of prefrontal neocortex from eight Alzheimer's disease (AD) patients and four age-matched nondemented controls with high amyloid plaque density (HPND). Computer-based image analysis revealed that the total area occupied by betaA4 immunoreactivity was significantly greater (P < 0.031) in AD (27.1%) than in HPND (14.5%) sections. The total betaA4-positive area occupied by nondiffuse plaques was significantly greater (P < 0.05) in AD (13.6%) than in HPND (5.2%) sections. The percentage of diffuse (DPs) and nondiffuse plaques (NDPs) which contained neurons, astrocytes, microglia, dystrophic neurites, and amyloid precursor protein (APP) was also determined. The frequency of association between betaA4 and these neural elements was similar between AD and HPND cases in both diffuse and nondiffuse plaques. Forty percent of DPs in AD and HPND sections contained neuronal perikarya. Microglia, dystrophic neurites, and APP were detected in most nondiffuse plaques in both AD and HPND sections. While astrocyte cell bodies were not present in either diffuse or nondiffuse plaques, their processes were detected in most. These findings indicate that amyloid deposition and nondiffuse plaques are greater in AD than in HPND sections. The association between microglia and nondiffuse plaques supports the hypothesis that these resident immune cells participate in aggregation and redistribution of amyloid deposits and possibly formation of dystrophic neurites.     

Ovarian endometrioid adenocarcinoma coexistent with benign and borderline endometrioid adenofibroma: a case report

The immunopharmacological profile of experimental allergic encephalomyelitis (EAE) in DA rats was compared to that in Lewis rats, which are commonly used for the study of EAE. DA rats showed higher susceptibility to EAE than Lewis rats. The immunological studies indicate that DA rats showed higher humoral and cellular immune response to myelin basic protein (MBP) than Lewis rats. This is probably due to the susceptible T cells to mitogen and autoreactive T cells to MBP in DA rats. In pharmacological studies, cyclosporin A, FK-506 and prednisolone suppressed the development of EAE in both strains in a similar manner. These results suggest the existence of two different types of T cells with respect to the onset of EAE in DA rats: one is highly reactive to mitogen and MBP; the other is regulated by cyclosporin A and FK-506.     

Adult pertussis: a salesman''s dream--and an epidemiologist''s nightmare

In human neuroblastoma SH-SY5Y cells, treatment with immunosuppressants such as FK506, cyclosporin A or rapamycin for 4 days induced the enhancement of the 27-kDa Bcl-2alpha protein level. Among immunosuppressants, rapamycin has most potency. Treatment with herbimycin A or wortmannin also enhanced Bcl-2 expression, but the BB type of platelet-derived growth factor decreased the level. These results suggest that Bcl-2 expression is probably regulated by the cascade of tyrosine kinase, phosphatidylinositol 3-kinase and rapamycin-sensitive p70 S6-kinase in human neuroblastoma SH-SY5Y cells.     

NSAIDS inhibit the IL-1 beta-induced IL-6 release from human post-mortem astrocytes: the involvement of prostaglandin E2

Epidemiological studies have shown that steroidal as well as non-steroidal anti-inflammatory drugs lower the risk of developing Alzheimer's Disease (AD). A suppressive effect of these anti-inflammatory drugs on local inflammatory events in AD brains has been suggested, however the mechanisms responsible are still unknown. In this study we investigated at cellular level the influence of two anti-inflammatory drugs-dexamethasone and indomethacin--and an experimental specific cyclooxygenase-2 inhibitor, BF389, on the production of the pro-inflammatory cytokine IL-6 and the inflammatory mediator PGE2 by human astrocytes. Two human post-mortem astrocyte cultures (A157 and A295) and astroglioma cell lines (U251 and U373 MG) were found to secrete considerable amounts of IL-6 upon stimulation with IL-1beta. The glucocorticoid dexamethasone inhibited the IL-1beta-activated release of IL-6 from the postmortem astrocyte cultures A157 and A295 and from the astroglioma cell lines. The non-specific cyclooxygenase inhibitor indomethacin and BF389 only suppressed the IL-6 release by post-mortem astrocyte culture A157. This post-mortem astrocyte culture was found to produce large amounts of PGE2 upon stimulation with IL-1beta, whereas in the supernatants of the postmortem astrocyte culture A295 and the astroglioma cell lines, low PGE2 concentrations were detected. Addition of exogenous PGE2 prevented the inhibitory effect of indomethacin and BF389 on the IL-1beta-activated IL-6 release from A157 astrocytes and largely potentiated the IL-1-induced release of IL-6 from all astrocytes/astroglioma cells tested. Dexamethasone also inhibited the PGE2 release from the astrocytes and astroglioma cells, however the inhibitory effect of dexamethasone on the IL-1beta-activated IL-6 release could not be prevented by the addition of PGE2. The observed reduction of IL-6 and/or PGE2 from astrocytes may be involved in the mechanism underlying the beneficial effects of these drugs in AD.     

Platelet-activating factor production in stimulated macrophages is down-regulated by concurrently produced prostaglandin E2

When rat peritoneal macrophages were incubated in medium containing 12-O-tetradecanoylphorbol 13-acetate (TPA), a protein kinase C activator, production of cell-associated platelet-activating factor (PAF) and extracellular prostaglandin E2 (PGE2) increased. In the presence of the cyclooxygenase inhibitor indomethacin, TPA-induced PAF production was further enhanced dose-dependently in accordance with decrease of PGE2 levels. In addition, indomethacin further enhanced PAF production that was stimulated by the protein kinase C activators, aplysiatoxin and teleocidin. Other cyclooxygenase inhibitors such as naproxen and ibuprofen also enhanced TPA-stimulated PAF production in accordance with inhibition of PGE2 production. Cyclooxygenase inhibitor-induced enhancement of PAF production was markedly prevented by exogenous PGE2. Exogenous arachidonic acid also inhibited TPA-induced PAF production in parallel with increase in PGE2 levels. Inhibition of PAF production by exogenous arachidonic acid was abolished by indomethacin. Furthermore, PAF production stimulated by the endomembrane Ca+2-ATPase inhibitors thapsigargin or thapsigargicin, or by the Ca+2 ionophore A23187, was also enhanced by indomethacin in compensation for the decrease in PGE2 production. In addition, the adenylate cyclase activator forskolin, or the cyclic adenosine monophosphate (cAMP) analogues 8-bromo cAMP and dibutyryl cAMP inhibited thapsigargin-induced PAF production. TPA-induced accumulation of intracellular cAMP was inhibited by indomethacin, and indomethacin-induced decrease of cAMP level was reversed by exogenous PGE2. These results suggested that concurrently produced PGE2 in stimulated macrophages down-regulates PAF production via adenylate cyclase and cAMP pathway.     

Endothelial cell dysfunction in response to intracellular overexpression of amyloid precursor protein

Previous reports have shown that exposure of vascular endothelial and smooth muscle cells to exogenous amyloid beta (Abeta) peptide results in cell damage and toxicity via oxidative injury. In this study we demonstrate that overexpression of the amyloid precursor protein (APP) is toxic to bovine aortic endothelial cells but not to bovine aortic smooth muscle cells. Intracellular coexpression of the free radical scavenger proteins metallothionein or MnSOD abolished the toxic effect of APP overexpression in endothelial cells. Our results demonstrate that endothelial cells are specifically susceptible to intracellular overexpression of APP and free radical generation is the likely mechanism of cell damage due to APP overexpression.     

Cyclosporin nephrotoxicity: pathophysiology and comparison with FK-506

At the end of an era of almost exclusive use of cyclosporin A, there have been significant advances in the understanding of its immunosuppressive effects, whereas there is still uncertainty about the mechanisms underlying its nephrotoxicity. The recently introduced FK-506, in spite of its undeniable clinical advantages, has subsequently been proved to have rather similar nephrotoxicity. This paper reviews recent data on cyclosporin A and FK-506 nephrotoxicity, with emphasis on: first, the haemodynamic, functional and structural features; second, the potential mediators; and third, the relationship with some immunosuppressive mechanisms involved to give insights into the pathophysiology.     

Modulation of secreted beta-amyloid precursor protein and amyloid beta-peptide in brain by cholesterol

The effects of dietary cholesterol on brain amyloid precursor protein (APP) processing were examined using an APP gene-targeted mouse, genetically humanized in the amyloid beta-peptide (Abeta) domain and expressing the Swedish familial Alzheimer's disease mutations. These mice express endogenous levels of APP holoprotein and abundant human Abeta. Increased dietary cholesterol led to significant reductions in brain levels of secreted APP derivatives, including sAPPalpha, sAPPbeta, Abeta1-40, and Abeta1-42, while having little to no effect on cell-associated species, including full-length APP and the COOH-terminal APP processing derivatives. The changes in levels of sAPP and Abeta in brain all were negatively correlated with serum cholesterol levels and levels of serum and brain apoE. These results demonstrate that secreted APP processing derivatives and Abeta can be modulated in the brain of an animal by diet and provide evidence that cholesterol plays a role in the modulation of APP processing in vivo. APP gene-targeted mice lacking apoE, also have high serum cholesterol levels but do not show alterations in APP processing, suggesting that effects of cholesterol on APP processing require the presence of apoE.     

Overexpression of amyloid precursor protein of Alzheimer's type in brains of intoxicated children

The coincidence of neuronal stress induced by intoxication and an overexpression of amyloid precursor protein (APP) in the brains of children was examined. Brains of ten children accidentally intoxicated by poisonous mushroom were studied by means of immunohistochemical methods using monoclonal antibodies generated against different domains of APP and glial cell markers. Overexpression of APP was found in the brain neurons of all intoxicated children. Neurons were immunopositive with the antibodies generated against the middle (amyloid beta protein) domain of APP. No extracellular deposits were found in the tissue. Our results provided, for the first time, the evidence that overexpression of APP concomitant with the neuronal stress is age-independent phenomenon appearing not only in the brain of adults but in very young individuals as well.     

Zyme, a novel and potentially amyloidogenic enzyme cDNA isolated from Alzheimer's disease brain

The deposition of the beta amyloid peptide in neuritic plaques and cerebral blood vessels is a hallmark of Alzheimer's disease (AD) pathology. The major component of the amyloid deposit is a 4.2-kDa polypeptide termed amyloid beta-protein of 39-43 residues, which is derived from processing of a larger amyloid precursor protein (APP). It is hypothesized that a chymotrypsin-like enzyme is involved in the processing of APP. We have discovered a new serine protease from the AD brain by polymerase chain reaction amplification of DNA sequences representing active site homologous regions of chymotrypsin-like enzymes. A cDNA clone was identified as one out of one million that encodes Zyme, a serine protease. Messenger RNA encoding Zyme can be detected in some mammalian species but not in mice, rats, or hamster. Zyme is expressed predominantly in brain, kidney, and salivary gland. Zyme mRNA cannot be detected in fetal brain but is seen in adult brain. The Zyme gene maps to chromosome 19q13.3, a region which shows genetic linkage with late onset familial Alzheimer's disease. When Zyme cDNA is co-expressed with the APP cDNA in 293 (human embryonic kidney) cells, amyloidogenic fragments are detected using C-terminal antibody to APP. These co-transfected cells release an abundance of truncated amyloid beta-protein peptide and shows a reduction of residues 17-42 of Abeta (P3) peptide. Zyme is immunolocalized to perivascular cells in monkey cortex and the AD brain. In addition, Zyme is localized to microglial cells in our AD brain sample. The amyloidogenic potential and localization in brain may indicate a role for this protease in amyloid precursor processing and AD.