Molecular Determinants of General Anesthetic Action: Role of GABAA Receptor Structure

Abstract: Using receptors expressed from mouse brain mRNA in Xenopus oocytes, we found that enhancement of type A γ-aminobutyric acid (GABA_A) receptor-gated Cl⁻ channel response is a common action of structurally diverse anesthetics, suggesting that the GABA_A receptor plays an important role in anesthesia. To determine if GABA_A receptor subunit composition influences actions of anesthetics, we expressed subunit cRNAs in Xenopus oocytes and measured effects of enflurane on GABA-activated Cl⁻ currents. Potentiation of GABA-activated currents by enflurane was dependent on the composition of GABA_A receptor protein subunits; the order of sensitivity was α₁β₁ > α₁β₁γ_2s=α₁β₁γ_2L > total mRNA. The results suggest that anesthetics with simple structures may act on the GABA_A receptor protein complex to modulate the Cl⁻ channel activity and provide a molecular explanation for the synergistic clinical interactions between benzodiazepines and general anesthetics.     

CaMKII associates with CaV1.2 L-type calcium channels via selected β subunits to enhance regulatory phosphorylation

Calcium/calmodulin-dependent kinase II (CaMKII) facilitates L-type calcium channel (LTCC) activity physiologically, but may exacerbate LTCC-dependent pathophysiology. We previously showed that CaMKII forms stable complexes with voltage-gated calcium channel (VGCC) β_1b or β_2a subunits, but not with the β₃ or β₄ subunits ( Grueter et al. 2008 ). CaMKII-dependent facilitation of Ca_V1.2 LTCCs requires Thr498 phosphorylation in the β_2a subunit ( Grueter et al. 2006 ), but the relationship of this modulation to CaMKII interactions with LTCC subunits is unknown. Here we show that CaMKII co-immunoprecipitates with forebrain LTCCs that contain Ca_V1.2α₁ and β₁ or β₂ subunits, but is not detected in LTCC complexes containing β₄ subunits. CaMKIIα can be specifically tethered to the I/II linker of Ca_V1.2 α₁ subunits in vitro by the β_1b or β_2a subunits. Efficient targeting of CaMKIIα to the full-length Ca_V1.2α₁ subunit in transfected HEK293 cells requires CaMKII binding to the β_2a subunit. Moreover, disruption of CaMKII binding substantially reduced phosphorylation of β_2a at Thr498 within the LTCC complex, without altering overall phosphorylation of Ca_V1.2α₁ and β subunits. These findings demonstrate a biochemical mechanism underlying LTCC facilitation by CaMKII.     

Differential Effects of 4'-Chlorodiazepam on Expressed Human GABAA Receptors

Abstract: The interactions of the atypical benzodiazepine 4'-chlorodiazepam (Ro 5-4864) with functionally expressed human GABA_A receptor cDNAs were determined. Cotransfection of human α₂, β₁, and γ₂ subunits was capable of reconstituting a 4'-chlorodiazepam recognition site as revealed by a dose-dependent potentiation of t -[³⁵S]butylbicyclophosphorothionate ([³⁵S]TBPS) binding to the GABA-activated chloride channel. This site is found on GABA_A receptor complexes containing sites for GABA agonist-like benzodiazepines and neuroactive steroids. The importance of the α subunit was further demonstrated as substitution of either α₁ or α₃ for the α₂ subunit did not reconstitute a 4'-chlorodiazepam recognition site that was capable of modulating [³⁵S]TBPS binding under the same experimental conditions. The 4'-chlorodiazepam modulatory site was shown to be distinct from the benzodiazepine site, but the phenylquinolines PK 8165 and PK 9084 produced effects similar to 4'-chlorodiazepam, consistent with the previous analysis of the 4'-chlorodiazepam site in brain homogenates. Further analysis of the subunit requirements revealed that coexpression of α₂ and β₁ alone reconstituted a 4'-chlorodiazepam recognition site. It is interesting, however, that the 4'-chlorodiazepam site was found to inhibit [³⁵S]TBPS binding to the GABA-activated chloride channel. Thus, the 4'-chlorodiazepam site may be reconstituted with only the α and β polypeptides.     

Borrelia burgdorferi BBB07 interaction with integrin alpha3beta1 stimulates production of pro-inflammatory mediators in primary human chondrocytes

Borrelia burgdorferi , the causative agent of Lyme disease, activates multiple signalling pathways leading to induction of pro-inflammatory mediators at sites of inflammation. Binding of B. burgdorferi to integrin α₃β₁ on human chondrocytes activates signalling leading to release of several pro-inflammatory mediators, but the B. burgdorferi protein that binds integrin α₃β₁ and elicits this response has remained unknown. A search of the B. burgdorferi genome for a canonical integrin binding motif, the RGD (Arg–Gly–Asp) tripeptide, revealed several candidate ligands for integrins. In this study we show that one of these candidates, BBB07, binds to integrin α₃β₁ and inhibits attachment of intact B. burgdorferi to the same integrin. BBB07 is expressed during murine infection as demonstrated by recognition by infected mouse sera. Recombinant purified BBB07 induces pro-inflammatory mediators in primary human chondrocyte cells by interaction with integrin α₃β₁. This interaction is specific, as P66, another integrin ligand of B. burgdorferi , does not activate signalling through α₃β₁. In summary, we have identified a B. burgdorferi protein, BBB07, that interacts with integrin α₃β₁ and stimulates production of pro-inflammatory mediators in primary human chondrocyte cells.     

Platelet activation by a relapsing fever spirochaete results in enhanced bacterium–platelet interaction via integrin αIIbβ3 activation

Borrelia hermsii , a spirochaete responsible for relapsing fever in humans, grows to high density in the bloodstream and causes thrombocytopenia. We show here that B. hermsii binds to human platelets. Extended culture in bacteriological medium resulted in both diminished infectivity in vivo and diminished platelet binding in vitro . Platelet binding was promoted by the platelet integrin α_IIbβ₃: the bacterium bound to purified integrin α_IIbβ₃, and bacterial binding to platelets was diminished by α_IIbβ₃ antagonists or by a genetic defect in this integrin. Integrin α_IIbβ₃ undergoes a conformational change upon platelet activation, and bacteria bound more efficiently to activated rather than resting platelets. Nevertheless, B. hermsii bound at detectable levels to preparations of resting platelets. The bacterium did not recognize a point mutant of α_IIbβ₃ that cannot acquire an active conformation. Rather, B. hermsii was capable of triggering platelet and integrin α_IIbβ₃ activation, as indicated by the expression of the platelet activation marker P-selectin and integrin α_IIbβ₃ in its active conformation. The degree of platelet activation varied depending upon bacterial strain and growth conditions. Prostacyclin I₂, an inhibitor of platelet activation, diminished bacterial attachment, indicating that activation enhanced bacterial binding. Thus, B. hermsii signals the host cell to activate a critical receptor for the bacterium, thereby promoting high-level bacterial attachment.     

α2-Macroglobulin Complexes with and Mediates the Endocytosis of β-Amyloid Peptide via Cell Surface Low-Density Lipoprotein Receptor-Related Protein

Abstract: A primary histopathological feature of Alzheimer's disease is the accumulation of β-amyloid (Aβ) in the brain of afflicted individuals. However, Aβ is produced continuously as a soluble protein in healthy individuals where it is detected in serum and CSF, suggesting the existence of cellular clearance mechanisms that normally prevent its accumulation and aggregation. Here, we demonstrate that Aβ forms stable complexes with activated α₂-macroglobulin (α₂M^⋆), a physiological ligand for the low-density lipoprotein receptor-related protein (LRP) that is abundantly expressed in the CNS. These α₂M^⋆/¹²⁵I-Aβ complexes are immunoreactive with both anti-Aβ and anti-α₂M IgG and are stable under various pH conditions, sodium dodecyl sulfate, reducing agents, and boiling. We demonstrate that α₂M^⋆/¹²⁵I-Aβ complexes can be degraded by glioblastoma cells and fibroblasts via LRP, because degradation is partially inhibited by receptor-associated protein (RAP), an antagonist of ligand interactions with LRP. In contrast, the degradation of free ¹²⁵I-Aβ is not inhibited by RAP and thus must be mediated via an LRP-independent pathway. These results suggest that LRP can function as a clearance receptor for Aβ via a physiological ligand.     

The Subunit Composition of a GABAA/Benzodiazepine Receptor from Rat Cerebellum

Abstract: The pentameric subunit composition of a large population (36%) of the cerebellar granule cell GABA_A receptors that show diazepam (or clonazepam)-insensitive [³H]Ro 15-4513 binding has been determined by immunoprecipitation with subunit-specific antibodies. These receptors have α₆, α₁, γ_2S, γ_2L, and β₂ or β₃ subunits colocalizing in the same receptor complex.     

In Situ Hybridization Evidence of Differential Modulation by Pentobarbital of GABAA Receptor α1- and β3-Subunit mRNAs

Abstract: Tolerance to and withdrawal from pentobarbital were induced in rats by continuous intracerebroventricular infusion via subcutaneously implanted osmotic minipumps. In situ hybridization of GABA_A receptor α₁- and β₃-subunit mRNA was conducted using synthetic 3'- end ³⁵S-dATP-labeled oligodeoxynucleotide probes. Results were quantified by film densitometry. In animals that were tolerant to pentobarbital, levels of α₁-subunit mRNA were decreased in hippocampus, superior colliculus, and inferior colliculus, but levels of β₃-subunit mRNA were not affected. Dramatically increased levels of GABA_A receptor subunit mRNA were observed in animals 24 h after withdrawal from chronic pentobarbital treatment. These increases occurred in cerebral cortex and cerebellum for the α₁ subunit and in cerebral cortex only for the β₃-subunit. These data provide further support to the structural and pharmacological GABA_A receptor heterogeneity in discrete brain areas. The observed changes of subunit expression may underlie, at least in part, the receptor up- and down-regulation observed in receptor ligand binding studies.     

Stimulation of Cyclic GMP Accumulation by Sodium Nitroprusside Is Potentiated via a Gs Mechanism in Intact Pinealocytes

Abstract: Cyclic GMP accumulation in pinealocytes is elevated>100-fold by norepinephrine (NE) through a mechanism involving conjoint activation of α₁- and β₁-adrenergic receptors. Little or no stimulation occurs if either α₁- or β₁-adrenergic receptors alone are activated. It appears that α₁-adrenergic effects are mediated by Ca²⁺ acting in part through nitric oxide (NO), and β₁-adrenergic effects are mediated by G_s. In the study presented here we investigated effects of adrenergic agonists or related postreceptor-active agents on stimulation of pineal cyclic GMP accumulation by the NO generator sodium nitroprusside (NP). The cyclic GMP response to NP (1 m M ) was potentiated by NE and isoproterenol (ISO) but not by phenylephrine, indicating that activation of β₁-adrenergic receptors potentiates the effects of NP. Similarly, vasoactive intestinal peptide (VIP), cholera toxin (CTX), and forskolin, all of which are known to mimic the effects of ISO in this system, also potentiated the effects of NP. In contrast, neither dibutyryl cyclic AMP nor agents that elevate intracellular Ca²⁺ levels caused marked potentiation of the effects of NP on pineal cyclic GMP. Depletion (90%) of G_sα by 21-h treatment with CTX reduced β-adrenergic potentiation of NP. These findings indicate that β-adrenergic agonists and VIP potentiate the effects of NP through a mechanism involving G_s. The molecular basis of this action may be an increase in guanylyl cyclase responsiveness to NO.     

The cytochrome b6f complex. Novel aspects

The Cyt b ₆ f complex from plant chloroplasts, the green alga Chlamydomonas reinhardtii , and the thermophilic cyanobacterium, Mastigocladus laminosus , can be isolated in a highly active state, in which it is dimeric and contains one bound chlorophyll a molecule per monomeric unit. The latter feature is a distinguishing trait compared to the b ₆ f complex of bacterial photosynthesis and the respiratory chain. In contrast to the trans-membrane domains of the b ₆ f complex, and of most other integral membrane proteins, which are characterized by an a -helical structure, the p -side peripheral domains, consisting of Cyt f and the Rieske protein, have a predominantly β-strand secondary structure motif. One consequence of this motif is an extension of these polypeptides from the membrane surface. For example, the length of Cyt f is 75 Å. The heme Fe is 45 Å from the α-carbon of Arg250 at the membrane bilayer interface and, even though Cyt f may be tilted relative to the membrane plane, the heme electron transfer reactions are carried out far from the membrane surface. The presence of an internal 5 water chain, which has the properties of a proton wire, with one water H-bonded to the histidine-25 heme ligand, also suggests that the pathway of long distance H⁺ translocation traverses the extended p -side protein domain of the b ₆ f complex. A mechanism of H⁺ transfer in the chain that is coupled to the redox state of the heme, in which a proton is transferred into the chain to compensate the extra electron in the ferro-heme, is proposed.     

Structure and Functional Characterization of a Novel Human Low-Voltage Activated Calcium Channel

Abstract : We have isolated and characterized overlapping cDNAs encoding a novel, voltage-gated Ca²⁺ channel α₁ subunit, α_1H, from a human medullary thyroid carcinoma cell line. The α_1H subunit is structurally similar to previously described α₁ subunits. Northern blot analysis indicates that α_1H mRNA is expressed throughout the brain, primarily in the amygdala, caudate nucleus, and putamen, as well as in several nonneuronal tissues, with relatively high levels in the liver, kidney, and heart. Ba²⁺ currents recorded from human embryonic kidney 293 cells transiently expressing α_1H activated at relatively hyperpolarized potentials (-50 mV), rapidly inactivated (τ = 17 ms), and slowly deactivated. Similar results were observed in Xenopus oocytes expressing α_1H. Singlechannel measurements in human embryonic kidney 293 cells revealed a single-channel conductance of ~9 pS. These channels are blocked by Ni²⁺ (IC₅₀ = 6.6 μ M ) and the T-type channel antagonists mibefradil (~50% block at 1 μ M ) and amiloride (IC₅₀ = 167 μ M ). Thus, α_1H-containing channels exhibit biophysical and pharmacological properties characteristic of low voltage-activated, or T-type, Ca²⁺ channels.     

Role of GSK-3beta activation and alpha7 nAChRs in Abeta(1-42)-induced tau phosphorylation in PC12 cells

β-amyloid peptide 1–42 (Aβ_1–42) and hyperphosphorylated tau are associated with neurodegeneration in Alzheimer's disease. Emerging evidence indicates that Aβ_1–42 can potentiate hyperphosphorylation of tau in cell lines and in transgenic mice, but the underlying mechanism(s) remains unclear. In this study, Aβ_1–42-induced tau phosphorylation was investigated in differentiated PC12 cells. Treatment of cells with Aβ_1–42 increased phosphorylation of tau at serine-202 as detected by AT8 antibody. This Aβ_1–42-induced tau phosphorylation paralleled phosphorylation of glycogen synthase kinase-3β (GSK-3β) at tyrosine-216 (GSK-3β-pY216), which was partially inhibited by the GSK-3β inhibitor, CHIR98023. Aβ_1–42-induced tau phosphorylation and increase in GSK-3β-pY216 phosphorylation were also partially attenuated by α7 nicotinic acetylcholine receptor (α7 nAChR) selective ligands including agonist A-582941 and antagonists methyllycaconitine and α-bungarotoxin. The α7 nAChR agonist and the GSK-3β inhibitor had no additive effect. These observations suggest that α7 nAChR modulation can influence Aβ_1–42-induced tau phosphorylation, possibly involving GSK-3β. This study provides evidence of nAChR mechanisms underlying Aβ_1–42 toxicity and tau phosphorylation, which, if translated in vivo , could provide additional basis for the utility of α7 nAChR ligands in the treatment of Alzheimer's disease.     

Scl1-dependent internalization of group A Streptococcus via direct interactions with the alpha2beta(1) integrin enhances pathogen survival and re-emergence

The molecular pathogenesis of infections caused by group A Streptococcus (GAS) is not fully understood. We recently reported that a recombinant protein derived from the collagen-like surface protein, Scl1, bound to the human collagen receptor, integrin α₂β₁. Here, we investigate whether the same Scl1 variant expressed by GAS cells interacts with the integrin α₂β₁ and affects the biological outcome of host–pathogen interactions. We demonstrate that GAS adherence and internalization involve direct interactions between surface expressed Scl1 and the α₂β₁ integrin, because (i) both adherence and internalization of the scl1- inactivated mutant were significantly decreased, and were restored by in-trans complementation of Scl1 expression, (ii) GAS internalization was reduced by pre-treatment of HEp-2 cells with anti-α₂ integrin-subunit antibody and type I collagen, (iii) recombinant α₂-I domain bound the wild-type GAS cells and (iv) internalization of wild-type cells was significantly increased in C2C12 cells expressing the α₂β₁ integrin as the only collagen-binding integrin. Next, we determined that internalized GAS re-emerges from epithelial cells into the extracellular environment. Taken together, our data describe a new molecular mechanism used by GAS involving the direct interaction between Scl1 and integrins, which increases the overall capability of the pathogen to survive and re-emerge.     

Cytokine-Regulated Expression of Platelet-Derived Growth Factor Gene and Protein in Cultured Human Astrocytes

Abstract: To elucidate mechanisms regulating the production of platelet-derived growth factor (PDGF) in the CNS, we analyzed the influence of a panel of cytokines on PDGF mRNA and protein levels in astrocyte-enriched cultures from the human embryonic brain and spinal cord. Using a specific ELISA, PDGF AB protein was detected in serum-free astrocyte supernatants and its levels were significantly increased after treatment of the cultures with transforming growth factor-β₁ (TGF-β₁) or tumor necrosis factor-α (TNF-α); the largest increase was detected after combined treatment with the two cytokines. Interleukin-1β (IL-1β) by itself had little or no effect but synergized with TGF-β₁ in enhancing PDGF AB production. Supernatants from human astrocyte cultures stimulated the proliferation of rat oligodendrocyte progenitors, and most of the mitogenic activity could be accounted for by PDGF. By northern blot analysis, both PDGF A- and PDGF B-chain mRNAs were detected in untreated astrocytes. PDGF B-chain mRNA levels were increased by TGF-β₁, TNF-α, TNF-α/TGF-β₁, or IL-1β/TGF-β₁, whereas PDGF A-chain mRNA levels were not consistently affected by cytokine treatments. These in vitro data indicate that TGF-β₁, TNF-α, and IL-1β are able to stimulate astrocyte PDGF production. This cytokine network could play a role in CNS development and repair after injury or inflammation.     

Histidine carboxylase of Leuconostoc œnos 9204: purification, kinetic properties, cloning and nucleotide sequence of the hdc gene

Histidine decarboxylase (HDC) was purified to homogeneity from Leuconostoc ' nos 9204, a wine lactic acid bacterium. Histidine decarboxylase comprised two subunits, respectively α and β. The hdc gene was cloned and sequenced. The gene encodes a single polypeptide of 315 amino acids, demonstrating that Leuc. ' nos 9204 HDC was synthesized as a precursor proHDC π₆ (Mr 205 000). A cleavage between Ser-81 and Ser-82 generated the α (Mr 25 380) and β (Mr 8840) chains, which suggested that the holoenzyme exists as a hexameric structure (αβ)₆. At the optimal pH of 4·8, the HDC activity exhibited a simple Michaelis-Menten kinetic ( K _m = 0·33 mmol l⁻¹, V _max = 17·8 μmol CO₂ min⁻¹ mg⁻¹), while at pH 7·6 it was sigmoidal (cooperativity index of 2). Histamine acted as a competitive inhibitor ( K _i = 32 mmol l⁻¹). The similarities of these results with those described for other bacterial HDC support the assumption that the pyruvoyl enzymes evolved from a common ancestral protein and have similar catalytic mechanisms. These results also confirmed that the main lactic acid bacterial species responsible for malolactic fermentation in red wine is able to produce histamine. Bacteria carrying the HDC activity must be avoided during selection of strains for the production of malolactic starters.     

Generation and Regulation of β-Amyloid Peptide Variants by Neurons

Abstract: Studies of processing of the Alzheimer β-amyloid precursor protein (βAPP) have been performed to date mostly in continuous cell lines and indicate the existence of two principal metabolic pathways: the "β-secretase" pathway, which generates β-amyloid (Aβ_1–40/42; ∼4 kDa), and the "α-secretase" pathway, which generates a smaller fragment, the "p3" peptide (Aβ_17–40/42; ∼3 kDa). To determine whether similar processing events underlie βAPP metabolism in neurons, media were examined following conditioning by primary neuronal cultures derived from embryonic day 17 rats. Immunoprecipitates of conditioned media derived from [³⁵S]methionine pulse-labeled primary neuronal cultures contained 4- and 3-kDa Aβ-related species. Radiosequencing analysis revealed that the 4-kDa band corresponded to conventional Aβ beginning at position Aβ(Asp¹), whereas both radio-sequencing and immunoprecipitation-mass spectrometry analyses indicated that the 3-kDa species in these conditioned media began with Aβ(Glu¹¹) at the N terminus, rather than Aβ(Leu¹⁷) as does the conventional p3 peptide. Either activation of protein kinase C or inhibition of protein phosphatase 1/2A increased soluble βAPP_α release and decreased generation of both the 4-kDa Aβ and the 3-kDa N-truncated Aβ. Unlike results obtained with continuously cultured cells, protein phosphatase 1/2A inhibitors were more potent at reducing Aβ secretion by neurons than were protein kinase C activators. These data indicate that rodent neurons generate abundant Aβ variant peptides and emphasize the role of protein phosphatases in modulating neuronal Aβ generation.     

The content of prostaglandins and their precursors in Mortierella and Cunninghamella species

Five strains of filamentous fungi belonging to the genera Mortierella and Cunninghamella were examined for the content of dihomo-γ-linolenic, arachidonic, eicosapentaenoic acids and prostaglandins (type E₂ and F _2α). Prostaglandins were detected using an ELISA method in mycelia of all tested strains (range 50–4800 ng g⁻¹ of PGE₂ and 6–30 ng g⁻¹ of PG F _2α). Several micro-organisms also produced prostaglandins in the culture medium (2·2–137·6 μg l⁻¹ for PGE₂ and 0·4–7·8 μg l⁻¹ for PG F _2α).