Cytotoxic effect of human monocytes to mouse red cells

Human blood monocytes have been cultivated for various lengths of time. Within a few hours they are well spread on the glass and look very similar to peritoneal macrophages in vitro. After about 10 days of cultivation, they develop the capacity to exert cytotoxic effects against mouse red cells in the presence of foetal calf serum. Red cell ghosts as well as abnormal red cells are attached to the macrophages at this point. In the presence of human serum autologous to the monocytes, the rouse red cells are phagocytosed.     

Quantification of cerebral amyloid angiopathy and parenchymal amyloid plaques with Congo red histochemical stain

In the current protocol, we describe the Congo red staining method and a method for separately quantifying vascular and parenchymal amyloid deposits in brain tissue sections. Congo red staining detects amyloid deposits in brain tissue of amyloid precursor protein transgenic mice and human Alzheimer's tissue. It detects compacted amyloid in a beta-sheet secondary structure and labels amyloid in both the brain parenchyma (amyloid plaques) and blood vessels. Congophilic amyloid in blood vessels is called cerebral amyloid angiopathy (CAA). To date, analysis of CAA has largely used a severity rating scale, including both qualitative and quantitative characteristics. Here, we describe a simple method for quantifying total Congophilic staining and resolution of this staining into the parenchymal and vascular components based on morphological criteria. It is becoming increasingly important to separately quantify various components of the Alzheimer's pathology, given the advancement of amyloid-lowering therapies into clinical trials. The entire procedure for the Congo red staining can be performed at room temperature (20-25 degrees C) in a fume hood. The staining protocol should take 1 h 30 min including time for coverslipping slides. Time required for image analysis depends greatly on the number of samples being analyzed and the software being used. In our hands, 30 images can be collected per hour and quantified in a further 2 h.     

Cytotoxicity of activated monocytes on endothelial cells

Unstimulated human monocytes did not express appreciable levels of cytotoxicity on normal human umbilical vein endothelial cells (EC) in a 24-48 hr TdR release assay. On activation with IFN-gamma and LPS, monocytes had appreciable cytotoxicity on EC. Monocyte cytotoxicity on EC was not dependent on the presence of contaminating lymphoid cells. Recombinant TNF, IL-1, and IL-6 as well as monocyte supernatants did not exert a cytotoxic effect on EC. Moreover, anti-TNF, anti-IL-1, and anti-IL-6 antibodies, as well as scavengers of reactive oxygen intermediates, did not affect the cytotoxicity of activated monocytes on EC. Antibodies against the beta-chain (CD18) of leukocyte integrins inhibited the adhesion and cytotoxicity of activated monocytes on EC. Pretreatment of EC with IL-1 augmented the adhesion of monocytes on EC. Normal monocytes were not cytotoxic on IL-1-pretreated EC and IL-1 treatment did not increase the susceptibility of EC to activated monocytes. Thus adhesion is necessary but not sufficient for monocyte killing of EC. Anti-alpha L (LFA-1) antibodies markedly reduced monocyte cytotoxicity on EC, although anti-alpha X (p150) antibodies had only a modest effect. Anti-alpha M (Mac-1/CR3) antibodies were intermediate inhibitors of EC killing by activated monocytes. Thus, alpha L, beta 2 (LFA-1), and, to a lesser extent, alpha M, beta 2 (Mac-1/CR3) and alpha X, beta 2 (p 150, 95) integrins are the main adhesive structures involved in the cytotoxic interaction of activated monocytes with EC. Monocyte-mediated damage of EC could play a role as a mechanism of tissue injury under conditions of local or systemic activation of mononuclear phagocytes.     

Peak shift discrimination learning as a mechanism of signal evolution

"Peak shift" is a behavioral response bias arising from discrimination learning in which animals display a directional, but limited, preference for or avoidance of unusual stimuli. Its hypothesized evolutionary relevance has been primarily in the realm of aposematic coloration and limited sexual dimorphism. Here, we develop a novel functional approach to peak shift, based on signal detection theory, which characterizes the response bias as arising from uncertainty about stimulus appearance, frequency, and quality. This approach allows the influence of peak shift to be generalized to the evolution of signals in a variety of domains and sensory modalities. The approach is illustrated with a bumblebee (Bombus impatiens) discrimination learning experiment. Bees exhibited peak shift while foraging in an artificial Batesian mimicry system. Changes in flower abundance, color distribution, and visitation reward induced bees to preferentially visit novel flower colors that reduced the risk of flower-type misidentification. Under conditions of signal uncertainty, peak shift results in visitation to rarer, but more easily distinguished, morphological variants of rewarding species in preference to their average morphology. Peak shift is a common and taxonomically widespread phenomenon. This example of the possible role of peak shift in signal evolution can be generalized to other systems in which a signal receiver learns to make choices in situations in which signal variation is linked to the sender's reproductive success.     

X-34, a fluorescent derivative of Congo red: a novel histochemical stain for Alzheimer's disease pathology.

X-34, a lipophilic, highly fluorescent derivative of Congo red, was examined as a histochemical stain for pathological changes in Alzheimer's disease (AD). X-34 intensely stained neuritic and diffuse plaques, neurofibrillary tangles (NFTs), neuropil threads, and cerebrovascular amyloid. Comparison to standard methods of demonstrating AD pathology showed that X-34 correlated well with Bielschowsky and thioflavin-S staining. X-34 staining of NFTs correlated closely with anti-TAU antibody staining. A 1:1 correspondence of X-34 and anti-A beta antibody staining of plaques and cerebrovascular amyloid was observed. Both X-34 and thioflavin-S staining were eliminated by formic acid pretreatment, suggesting that beta-sheet secondary protein structure is a necessary determinant of staining. X-34 may be a general amyloid stain, like Congo red, because it also stains systemic amyloid deposits due to lambda-light chain monoclonal gammopathy. In conclusion, X-34 is a highly fluorescent marker for beta-sheet structures and intensely labels amyloid plaques, NFTs, neuropil threads, and vascular amyloid in AD brains. It can be used with both paraffin-embedded and frozen tissues as well as in combination with immunohistochemistry for double labeling. The intensity of staining and the simplicity and reproducibility of the technique suggest that it may be a useful addition to the standard techniques for evaluation of AD neuropathology. (J Histochem Cytochem 48:1223-1232, 2000)     

Effect of Congo red on wild-type and mutated prion proteins in cultured cells

Transmissible spongiform encephalopathies form a group of fatal neurodegenerative disorders that have the unique property of being infectious, sporadic, or genetic in origin. Although some doubts remain on the nature of the responsible agent of these diseases, it is clear that a protein called PrP(Sc) (which stands for the scrapie isoform of the prion protein) has a central role in their pathology. PrP(Sc) represents a conformational variant of a normal protein of the host: the cellular isoform of the prion protein, or PrP(C). Compounds such as glycosaminoglycans and Congo red (CR) have been shown to interfere with both in vitro and in vivo PrP(Sc) formation. It was hypothesized that CR acts by overstabilizing the conformation of PrP(Sc) molecules or by modifying trafficking of PrP(C). Using transfected cells expressing 3F4-tagged mouse PrPs, we show here that CR does not interfere with conversion of PrP molecules carrying pathogenic mutations. On the contrary, after incubation with the drug, some of their properties, such as insolubility and protease resistance, are enhanced and are even acquired by the wild-type molecule. This last observation suggests an alternative mechanism of action of CR and leads us to reconsider the relationship between the biochemical properties of PrP and conformational alteration of the protein.     

Protein trafficking in Plasmodium falciparum-infected red blood cells

Plasmodium falciparum inhabits a niche within the most highly terminally differentiated cell in the human body--the mature red blood cell. Life inside this normally quiescent cell offers the parasite protection from the host's immune system, but provides little in the way of cellular infrastructure. To survive and replicate in the red blood cell, the parasite exports proteins that interact with and dramatically modify the properties of the host red blood cell. As part of this process, the parasite appears to establish a system within the red blood cell cytosol that allows the correct trafficking of parasite proteins to their final cellular destinations. In this review, we examine recent developments in our understanding of the pathways and components involved in the delivery of important parasite-encoded proteins to their final destination in the host red blood cell. These complex processes are not only fundamental to the survival of malaria parasites in vivo, but are also major determinants of the unique pathogenicity of this parasite.     

Migration properties of adipose-tissue-derived mesenchymal stromal cells cocultured with activated monocytes in vitro

Mesenchymal stromal cells (MSCs) are a promising tool in regenerative medicine. MSC migration to damaged inflammatory sites (homing) is essential for tissue repair. We have studied the migration properties of adipose-tissue-derived MSCs (AT-MSC) after their cocultivation with activated monocytes from the THP-1 cell line. We observed the increased migration rate of AT-MSC in vitro with the lack of chemoattractant gradient and to the platelet-derived growth factor (PDGF BB), which is a well-known chemoattractant for cells of mesenchymal origin. Moreover, the rate of directional AT-MSC migration through fibronectin was also increased. We demonstrated that signaling via PDGFR-β activated through the binding of integrin receptors with an extracellular matrix is a possible mechanism for stimulation of cellular migration under simulated inflammatory conditions.     

Protein kinases in elicitor signal transduction in plant cells

Plants have the ability to respond to pathogen invasion by specific defense reactions. Components of mammalian signal transduction chains have been identified in plants, and several lines of evidence have implicated such components in elicitor signal transmission in defense responses. In particular, it has been assumed that elicitor signals are transduced via a protein kinase cascade, although the identity of the protein kinases and the function of the phosphorylated proteins remain to be determined. The purpose of this review is to discuss the roles of protein kinases in elicitor signal transduction pathways in plant cells based on recent progress in this field.     

FT-Raman spectroscopy as diagnostic tool of Congo red binding to amyloids

Chorion is the major component of silkmoth eggshell. More than 95% of its dry mass consists of the A and B families of low molecular weight structural proteins, which have remarkable mechanical and chemical properties protecting the oocyte and developing embryo from environmental hazards. We present data from FT-Raman spectroscopy of silkmoth chorion and amyloid-like fibrils formed from peptide analogues of chorion proteins, both unstained and stained by Congo red. The results show that FT-Raman spectroscopy is not a straightforward diagnostic tool for the specific interactions of Congo red with amyloids: a dilute aqueous solution of the Congo red dye at pH 5.5 and a thin solid film of the dye cast from this solution exhibit the same "diagnostic" Raman shifts relative to the neat Congo red dry powder as do amyloid fibrils formed from peptide analogues of chorion proteins stained by Congo red. An important consequence of this finding is that these shifts of the Raman active modes of Congo red are probably due to the formation of supramolecular dye aggregates in the presence of water. Therefore, this is not an appropriate diagnostic test for Congo red binding to amyloids.     

Molecules involved in the adhesion and cytotoxicity of activated monocytes on endothelial cells.

Our study was designed to investigate the surface molecules involved in the adhesion and cytotoxicity of activated human monocytes on resting and IL-1-stimulated endothelial cells (EC). Monocytes, exposed to the prototypic activating stimuli IFN-gamma and LPS, showed increased binding to resting and IL-1-treated EC. Activated monocytes were cytotoxic for resting and IL-1-treated EC in a 24- to 48-h [3H]TdR release assay. Anti-CD18 mAb significantly inhibited binding of monocytes on EC: in particular they caused 59 and 22% inhibition of adhesion of activated monocytes to resting and IL-1-stimulated EC, respectively. Anti-VLA4 mAb had little or no effect on binding when used alone, but combined use with anti-CD18 revealed an important role for this adhesion pathway: in particular, VLA4-dependent adhesion accounted for 40% of the binding of activated monocytes on IL-1-treated EC. Anti-CD18 mAb caused similar inhibition (77 and 81%) of the cytotoxicity of activated monocytes on resting and IL-1-treated EC in spite of the fact that this pathway accounted for only 22% of binding to activated EC. Moreover, anti-VLA4 mAb, alone or in combination with anti-CD18, had no effect on cytotoxicity. These results suggest that adhesion of activated monocytes to activated EC involves the CD18- and VLA4-dependent pathways, but that the former is dominant for the expression of cytotoxicity. Thus, in the ensemble of adhesion molecules available for interaction between endothelium and activated monocytes, the hierarchy of their importance may vary for different functions.     

A system-based approach to modeling the ultrasound signal backscattered by red blood cells

A system-based model is proposed to describe and simulate the ultrasound signal backscattered by red blood cells (RBCs). The model is that of a space-invariant linear system that takes into consideration important biological tissue stochastic scattering properties as well as the characteristics of the ultrasound system. The formation of the ultrasound signal is described by a convolution integral involving a transducer transfer function, a scatterer prototype function, and a function representing the spatial arrangement of the scatterers. The RBCs are modeled as nonaggregating spherical scatterers, and the spatial distribution of the RBCs is determined using the Percus-Yevick packing factor. Computer simulations of the model are used to study the power backscattered by RBCs as a function of the hematocrit, the volume of the scatterers, and the frequency of the incident wave (2-500 MHz). Good agreement is obtained between the simulations and theoretical and experimental data for both Rayleigh and non-Rayleigh scattering conditions. In addition to these results, the renewal process theory is proposed to model the spatial arrangement of the scatterers. The study demonstrates that the system-based model is capable of accurately predicting important characteristics of the ultrasound signal backscattered by blood. The model is simple and flexible, and it appears to be superior to previous one- and two-dimensional simulation studies.     

Recognition and discrimination of gases by the oxygen-sensing signal transducer protein HemAT as revealed by FTIR spectroscopy

The determination of ligand binding properties is a key step in our understanding of gas sensing and discrimination by gas sensory proteins. HemAT is a newly discovered signal transducer heme protein that recognizes O(2) and discriminates against other gases such as CO and NO. We have used FTIR spectroscopy on CO- and NO-bound sensor domain HemAT and sensor domain distal mutants Y70F, T95A, R91A, and L92A to gain insight into the structure of the iron-bound ligand at ambient temperature. These mutations were designed to perturb the electrostatic field near the iron-bound gaseous ligand and also allow us to investigate the communication pathway between the distal residues of the protein and the heme. We show the formation of both H-bonded and non-H-bonded conformations in the CO-bound forms. In addition, we report the presence of multiple conformations in the NO-bound forms. Such distal H-bonding is crucial for ligand binding and activation by the heme. The comparison of the O(2), NO, and CO data demonstrates that Thr95 and Tyr70 are crucial for ligand recognition and discrimination and, thus, for specific sensing of gases, and L92 is crucial for controlling the conformational changes of the Thr95 and Tyr70 residues upon NO binding.     

Protein kinase C delta is required for p47phox phosphorylation and translocation in activated human monocytes

Our laboratory is interested in understanding the regulation of NADPH oxidase activity in human monocyte/macrophages. Protein kinase C (PKC) is reported to be involved in regulating the phosphorylation of NADPH oxidase components in human neutrophils; however, the regulatory roles of specific isoforms of PKC in phosphorylating particular oxidase components have not been determined. In this study calphostin C, an inhibitor for both novel PKC (including PKCdelta, -epsilon, -theta;, and -eta) and conventional PKC (including PKCalpha and -beta), inhibited both phosphorylation and translocation of p47phox, an essential component of the monocyte NADPH oxidase. In contrast, GF109203X, a selective inhibitor of classical PKC and PKCepsilon, did not affect the phosphorylation or translocation of p47phox, suggesting that PKCdelta, -theta;, or -eta is required. Furthermore, rottlerin (at doses that inhibit PKCdelta activity) inhibited the phosphorylation and translocation of p47phox. Rottlerin also inhibited O2 production at similar doses. In addition to pharmacological inhibitors, PKCdelta-specific antisense oligodeoxyribonucleotides were used. PKCdelta antisense oligodeoxyribonucleotides inhibited the phosphorylation and translocation of p47phox in activated human monocytes. We also show, using the recombinant p47phox-GST fusion protein, that p47phox can serve as a substrate for PKCdelta in vitro. Furthermore, lysate-derived PKCdelta from activated monocytes phosphorylated p47phox in a rottlerin-sensitive manner. Together, these data suggest that PKCdelta plays a pivotal role in stimulating monocyte NADPH oxidase activity through its regulation of the phosphorylation and translocation of p47phox.     

Akt is activated in response to an apoptotic signal

Akt is a serine-threonine kinase known to exert antiapoptotic effects through several downstream targets. Akt is cleaved during mitochondrial-mediated apoptosis in a caspase-dependent manner. The reason for this is not clear, however, because Akt has not been demonstrated to be activated in response to mitochondrial apoptotic stimuli. Accordingly, we explored whether the well described mitochondrial apoptotic stimuli staurosporine (STS) and etoposide activate Akt and whether such activation impacts apoptosis. Both STS and etoposide activated Akt in NIH 3T3 cells, maximally at 8 and 2 h, respectively, preceding the onset of apoptosis and poly(ADP-ribose) polymerase cleavage. The overexpression of Akt delayed STS-induced apoptosis with an even more pronounced delay observed with overexpression of constitutively active Akt. Akt activation by proapoptotic stimuli lay upstream of mitochondria, because neither caspase inhibitors nor overexpression of Bcl-2 or Bcl-x(L) could prevent it. Activation depended on phosphatidylinositol 3-kinase activity, however. Conversely, inhibition of phosphatidylinositol 3-kinase with wortmannin sensitized cells to apoptosis initiated by STS. These data demonstrate that mitochondrial apoptotic stimuli also activate Akt and such activation modulates apoptosis in this setting.