Light-Controlled Affinity Purification of Protein Complexes Exemplified by the Resting ZAP70 Interactome.

Multiprotein complexes control the behavior of cells, such as of lymphocytes of the immune system. Methods to affinity purify protein complexes and to determine their interactome by mass spectrometry are thus widely used. One drawback of these methods is the presence of false positives. In fact, the elution of the protein of interest (POI) is achieved by changing the biochemical properties of the buffer, so that unspecifically bound proteins (the false positives) may also elute. Here, we developed an optogenetics-derived and light-controlled affinity purification method based on the light-regulated reversible protein interaction between phytochrome B (PhyB) and its phytochrome interacting factor 6 (PIF6). We engineered a truncated variant of PIF6 comprising only 22 amino acids that can be genetically fused to the POI as an affinity tag. Thereby the POI can be purified with PhyB-functionalized resin material using 660 nm light for binding and washing, and 740 nm light for elution. Far-red light-induced elution is effective but very mild as the same buffer is used for the wash and elution. As proof-of-concept, we expressed PIF-tagged variants of the tyrosine kinase ZAP70 in ZAP70-deficient Jurkat T cells, purified ZAP70 and associating proteins using our light-controlled system, and identified the interaction partners by quantitative mass spectrometry. Using unstimulated T cells, we were able to detect the known interaction partners, and could filter out all other proteins.

Luteolin suppresses UVB-induced photoageing by targeting JNK1 and p90 RSK2.

Multiple lines of evidence suggest that natural compounds can prevent skin ageing induced by ultraviolet light. Luteolin, a bioactive compound found in chilli, onion, broccoli, celery and carrot, has been reported to exhibit anti-photoageing effects in vitro. However, the molecular targets and mechanisms of luteolin are still poorly understood. In this study, we sought to investigate the effects of luteolin on UVB-induced photoageing and the molecular mechanisms involved, using HaCaT human keratinocytes and SKH-1 hairless mice. Luteolin was found to inhibit UVB-induced MMP-1 expression in HaCaT cells, as well as UVB-induced activation of AP-1, a well-known transcription factor targeting the MMP-1 promoter region, as well as c-Fos and c-Jun, which comprise the AP-1 complex. In contrast, Western blot data showed that UVB-induced phosphorylation of JNK, ERK and p90RSK was not inhibited by luteolin. In vitro kinase assay data revealed that luteolin significantly suppressed JNK1 and p90RSK activity, but not that of JNK2 and ERK2. Pull-down assays showed that luteolin binds JNK1 in an ATP-competitive manner and p90RSK2 in an ATP-independent manner. Luteolin also inhibited UVB-induced wrinkle formation and MMP-13 expression, a rodent interstitial collagenase in mouse skin, in vivo. Taken together, our observations suggest that luteolin exhibits anti-photoageing effects in vitro and in vivo and may have potential as a treatment for the prevention of skin ageing.

Photounbinding of calmodulin from a family of CaM binding peptides.

BACKGROUND: Recent studies have shown that fluorescently labeled antibodies can be dissociated from their antigen by illumination with laser light. The mechanism responsible for the photounbinding effect, however, remains elusive. Here, we give important insights into the mechanism of photounbinding and show that the effect is not restricted to antibody/antigen binding. METHODOLOGY/PRINCIPAL FINDINGS: We present studies of the photounbinding of labeled calmodulin (CaM) from a set of CaM-binding peptides with different affinities to CaM after one- and two-photon excitation. We found that the photounbinding effect becomes stronger with increasing binding affinity. Our observation that photounbinding can be influenced by using free radical scavengers, that it does not occur with either unlabeled protein or non-fluorescent quencher dyes, and that it becomes evident shortly after or with photobleaching suggest that photounbinding and photobleaching are closely linked. CONCLUSIONS/SIGNIFICANCE: The experimental results exclude surface effects, or heating by laser irradiation as potential causes of photounbinding. Our data suggest that free radicals formed through photobleaching may cause a conformational change of the CaM which lowers their binding affinity with the peptide or its respective binding partner.

Dimerization of the class A G protein-coupled neurotensin receptor NTS1 alters G protein interaction.

G protein-coupled receptors (GPCRs) have been found as monomers but also as dimers or higher-order oligomers in cells. The relevance of the monomeric or dimeric receptor state for G protein activation is currently under debate for class A rhodopsin-like GPCRs. Clarification of this issue requires the availability of well defined receptor preparations as monomers or dimers and an assessment of their ligand-binding and G protein-coupling properties. We show by pharmacological and hydrodynamic experiments that purified neurotensin receptor NTS1, a class A GPCR, dimerizes in detergent solution in a concentration-dependent manner, with an apparent affinity in the low nanomolar range. At low receptor concentrations, NTS1 binds the agonist neurotensin with a Hill slope of approximately 1; at higher receptor concentrations, neurotensin binding displays positive cooperativity with a Hill slope of approximately 2. NTS1 monomers activate G alpha q beta(1)gamma(2), whereas receptor dimers catalyze nucleotide exchange with lower affinity. Our results demonstrate that NTS1 dimerization per se is not a prerequisite for G protein activation.

Influence of extremely low frequency magnetic fields on Ca2+ signaling and NMDA receptor functions in rat hippocampus.

Extremely low frequency (ELF<300Hz) electromagnetic fields affect several neuronal activities including memory. Because ELF magnetic fields cause altered Ca(2+) homeostasis in neural tissues, we examined their influence on Ca(2+) signaling enzymes in hippocampus and related them with NMDA receptor functions. Hippocampal regions were obtained from brains of 21-day-old rats that were exposed for 90 days to 50Hz magnetic fields at 50 and 100 microT intensities. In comparison to controls, ELF exposure caused increased intracellular Ca(2+) levels concomitant with increased activities of Ca(2+)-dependent protein kinase C (PKC), cAMP-dependent protein kinase and calcineurin as well as decreased activity of Ca(2+)-calmodulin-dependent protein kinase in hippocampal regions. Simultaneous ligand-binding studies revealed decreased binding to N-methyl-D-aspartic acid (NMDA) receptors. The combined results suggest that perturbed neuronal functions caused by ELF exposure may involve altered Ca(2+) signaling events contributing to aberrant NMDA receptor activities.

Mechanisms of drug photobinding to proteins: photobinding of suprofen to human serum albumin.

Photobinding of drugs to biomolecules constitutes an important early event in the onset of photoallergy. In the present work, UV irradiation of human serum albumin in the presence of either suprofen (SUP) or its major photoproduct, decarboxylated suprofen (DSUP), has been studied as a model system for drug-photosensitised protein binding. Both dark binding and binding in the presence of light were investigated since this will affect the mode, site and mechanism of drug interaction with the protein. In order to determine the binding features of SUP to albumin, competitive binding experiments were carried out using fluorescent probes specific for site I and II. Suprofen was found to selectively dark bind to site II on HSA. Photobinding of DSUP to HSA was more efficient than SUP. Parallel to this, the intrinsic tryptophan fluorescence of HSA decreased when the protein was previously irradiated in the presence of the photoactive compounds, again being DSUP more efficient compared with SUP. As fluorescence quenching involves electron transfer from the excited Trp to the ground state DSUP, it follows that the photoactive compound binding to HSA must be on (or in close proximity to) site I Trp(214) residue. It appears that photobinding of SUP is largely preceded by its photodecomposition to DSUP which, in turn, associates and photobinds to HSA.

Magnetic field desensitizes 5-HT(1B) receptor in brain: pharmacological and functional studies.

It was previously suggested that exposure to magnetic fields (MFs) could generate dysfunction of the CNS. The physiological manifestations described lead us to postulate that these symptoms might be related to a dysfunction of the serotonergic system and particularly of the 5-HT(1B) receptors. Accordingly, MFs could modify the conformation of these receptors altering their functional activities. In rat brain membrane preparations, we showed that the affinity constant of 5-HT for 5-HT(1B) receptors was modified under exposure to MFs since K(d) varied from 4.7+/-0.5 to 12+/-3 nM in control and exposed (2.5 mT) membranes, respectively. This effect was intensity-dependent (the sigmoidal dose-response curve was characterized by an EI(50) of 662+/-69 microT and a maximal increase of 321+/-13% of the control K(d)), reversible, temperature-dependent and specific to the 5-HT(1B) receptors. Similar results have also been obtained with the human 5-HT(1B) receptors. In parallel assays, the functional activity of 5-HT(1B) receptors was investigated. The capacity of a 5-HT(1B) agonist to inhibit the cAMP production was reduced by 37% (53.7+/-3.5% to 33.7+/-4.1%) following exposure to MFs and the cellular activity of the receptors (inhibition of the synaptosomal release of 5-HT) also was markedly reduced (66.5+/-3.2% to 28.5+/-4.2%). These results clearly show that in in vitro assays, MF specifically interacts with 5-HT(1B) receptors, inducing structural changes of the protein that result in a functional desensitization of the receptors. Thus, in vivo, exposure to MFs may lead to physiological changes, particularly in the field of mood disorders where the 5-HT system is strongly involved.

Quantitative autoradiography of adrenergic, neuropeptide Y and angiotensin II receptors in the nucleus tractus solitarii and hypothalamus of rats with experimental hypertension.

Catecholamines, neuropeptide Y (NPY) and angiotensin II (Ang II) are known to participate in the central control of blood pressure. However, the modulation of these neurotransmitter receptors in response to a hypertensive stimulus is not appropriately established. The purpose of the present study was to examine binding parameters of alpha(2)-adrenergic, NPY and Ang II receptors in the nucleus tractus solitarii (NTS) and paraventricular hypothalamic nucleus (PVN) following a hypertensive stimulus in the aortic-coarcted rat by means of quantitative receptor autoradiography. No changes were seen in binding parameters of alpha(2)-adrenergic and NPY receptors in the NTS of the hypertensive rat compared to control. However, an increased affinity (54%) of noradrenaline competing for 3H-PAC was seen in the PVN. Moreover, an increased binding (49%) of 125I-PYY was also observed in the PVN. The affinity of Ang II for 125I-Sar(1)Ile(8)-Ang II binding sites was also increased (57%) in the NTS of the hypertensive rat. No changes in the binding parameters of radioactive Ang II were observed in the PVN. The results suggest that systems involved with hypertension like Ang II in the NTS and catecholamines in the PVN might collaborate in the development/maintenance of high blood pressure in the aortic-coarcted rat.

Tau is required for neurite outgrowth and growth cone motility of chick sensory neurons.

The role of the microtubule-associated protein (MAP) tau in axon growth remains controversial. Antisense experiments have suggested that tau is required for axon outgrowth, whereas genetic knockout and immunodepletion studies have suggested that tau plays no role in this process. To investigate the role of tau in both neurite outgrowth and growth cone motility, we have used a different approach, the chromophore-assisted laser inactivation (CALI) of tau in chick dorsal root ganglion (DRG) neurons in culture. This approach generates an acute loss of tau function that is not subject to compensation by other MAPs. Inactivation of tau in whole DRG neurons (including cell body and neurites) reduced neurite number and length. Inactivation of tau within regions of growth cones using micro-scale CALI caused a decrease in neurite extension rate by approximately 2-fold. Surprisingly, it also caused a approximately 20% decrease in the lamellipodial size within the inactivation region, whereas the filopodial motility was not affected. These results suggest that tau is required in neurite outgrowth and that tau also functions in lamellipodial motility at the growth cone leading edge.

Photoinduced covalent binding of frusemide and frusemide glucuronide to human serum albumin.

AIMS: To study reaction of photoactivated frusemide (F) and F glucuronide (Fgnd metabolite) with human serum albumin in order to find a clue to clarify a mechanism of phototoxic blisters from high frusemide dosage. METHODS: F was exposed to light in the presence of human serum albumin (HSA). HSA treated with this method (TR-HSA) was characterized by fluorescence spectroscopic experiment, alkali treatment and reversible binding experiment. RESULTS: Less 4-hydroxyl-N-furfuryl-5-sulphamoylanthranilic acid (4HFSA, a photodegradation product of F) was formed in the presence of HSA than in the absence of HSA. A new fluorescence spectrum excited at 320 nm was observed for TR-HSA. Alkali treatment of TR-HSA released 4HFSA. Quenching of the fluorescence due to the lone tryptophan near the warfarin-binding site of HSA was observed in TR-HSA. The reversible binding of F or naproxen to the warfarin-binding site of TR-HSA was less than to that of native HSA. These results indicate the photoactivated F was covalently bound to the warfarin-binding site of HSA. The covalent binding of Fgnd, which is also reversibly bound to the warfarin-binding site of HSA, was also induced by exposure to sunlight. Fgnd was more photoactive than F, indicating that F could be activated by glucuronidation to become a more photoactive compound. CONCLUSIONS: The reactivity of photoactivated F and Fgnd to HSA and/or to other endogenous compounds may cause the phototoxic blisters that result at high F dosage.

A proximal element within the human alpha 2(I) collagen (COL1A2) promoter, distinct from the tumor necrosis factor-alpha response element, mediates transcriptional repression by interferon-gamma.

Previous studies have shown that interferon-gamma (IFN-gamma) inhibits type I collagen gene expression through both transcriptional and post-transcriptional mechanisms (Kahäri et al., 1990). In the present study, using transient cell transfections of human dermal fibroblast cultures with a series of 5' deletion promoter/CAT reporter gene constructs, we have identified the IFN-gamma-response element of the human alpha 2(I) collagen gene (COL1A2) promoter. Specifically, we have identified a segment of the proximal promoter region, located between nucleotides -161 and -125 relative to the transcription start site, as critical for down-regulation of COL1A2 promoter activity by IFN-gamma. This IFN-gamma response element (IgRE) is clearly distinct from the previously described tumor necrosis factor-alpha response element (TaRE) located between nucleotides -265 and -241 of the COL1A2 promoter, a difference which is likely to explain the additive inhibitory effect of these two cytokines. The inhibitory effect of IFN-gamma was dose-dependent and rapidly induced, requiring less than 5 min exposure of fibroblast cultures. Gel mobility shift assays indicated that a highly specific nuclear protein complex bound to this 37-base pair region of promoter. Competition experiments with oligonucleotides spanning discrete segments of this promoter region mapped the binding element within a distinctive pyrimidine-rich sequence. Point mutations within the latter revealed that this element plays a crucial role not only in the IFN-gamma response, but also in the basal activity of the proximal promoter. Substitution mutations within the IgRE of the -161/CAT construct attenuated the promoter response to IFN-gamma, as measured in transient cell transfections, and eliminated specific DNA/protein complex formation, as measured by gel mobility shift assay. UV-crosslinking experiments indicated that two DNA/protein complexes were formed with the IgRE, with molecular weights around 55 kDa and 30 kDa, corresponding to proteins of approximately 30 kDa and approximately 6 kDa, respectively. Our results further clarify the molecular mechanisms involved in the regulation of type I collagen gene expression by IFN-gamma.

Development of primary hypothyroidism with antithyroglobulin, antiperoxidase, and blocking-type thyrotropin receptor antibodies after radiation therapy for neuroblastoma.

We describe a girl with hypothyroidism and blocking-type thyrotropin receptor antibodies that developed after chemotherapy and irradiation of the neck region for neuroblastoma. Results of thyroid studies before treatment were normal. Twenty months after completion of treatment, the girl had hypothyroidism with high titers of blocking-type thyrotropin receptor antibodies, antithyroglobulin, and antiperoxidase antibodies.

Antigenic competition in IgE antibody production. I. Establishment of parameters involved in primary and secondary responses.

Antigenic competition was demonstrated in IgE antibody response in mice immunized with ovalbumin or DNP-ovalbumin associated with several non-related proteins: DNP-Ascaris, DNP-keyhole limpet haemocyanin or Ascaris. Simultaneous injection of two antigens caused a suppression of IgE antibody production to the test antigen, IgG1 antibody formation being only diminished under certain conditions. Competition was dose-dependent and effective only in the primary response. However, the secondary response could be also partially suppressed if the competitor antigen was given in both first and second antigenic stimulation. Competition was abolished by irradiation prior to immunization.