Multiplex single‐cell quantification of rare RNA transcripts from protoplasts in a model plant system

Here we demonstrate multiplex and simultaneous detection of four different rare RNA species from plant, Arabidopsis thaliana, using surface‐enhanced Raman spectroscopy (SERS) and gold nanoprobes at single‐cell resolution. We show the applicability of nanoparticle‐based Raman spectroscopic sensor to study intracellular RNA copies. First, we demonstrate that gold‐nanoparticles decorated with Raman probes and carrying specific nucleic acid probe sequences can be uptaken by the protoplasts. We confirm the internalization of gold nanoprobes by transmission electron microscopy, inductively‐coupled plasma‐mass spectrometry and fluorescence imaging. Second, we show the utility of a SERS platform to monitor individual alternatively spliced (AS) variants and miRNA copies within single cells. Finally, the distinctive spectral features of Raman‐active dyes were exploited for multiplex analysis of AtPTB2, AtDCL2, miR156a and miR172a. Furthermore, single‐cell studies were validated by in vitro quantification and evaluation of nanotoxicity of gold probes. Raman tag functionalized gold nanosensors yielded an approach for the tracking of rare RNAs within the protoplasts. The SERS‐based approach for quantification of RNAs has the capability to be a highly sensitive, accurate and discerning method for single‐cell studies including AS variants quantification and rare miRNA detection in specific plant species.     

Influence of crocetin on high-cholesterol diet induced atherosclerosis in rats via anti-oxidant activity together with inhibition of inflammatory response and p38 MAPK signaling pathway

The present study aimed to investigate the effect and possible mechanism of action of crocetin on the high cholesterol diet (HCD) induced atherosclerosis rat. The Wistar rats were used in the current investigation. The rats were divided into following group, Group I: control, Group II: HCD induced AS, Group III: AS + crocetin (25 mg/kg), Group IV: AS + crocetin (50 mg/kg) and Group V: AS + Simvastatin, respectively. AS was induced in the rats using the vitamin D₃ and HCD. The rats received the pre-determined treatment for the 10 weeks. After the study period, the level of lipid profile, malonaldehyde (MDA) and superoxide dismutase (SOD) were also estimated. The proinflammatory cytokines viz., tumor necrosis factor (TNF)-α and interleukin (IL)-6 were scrutinized using the ELISA kits. We also estimated the expression of phosphorylated p38 (p-p38) MAPK using the Western blot techniques. The results revealed that the AS was successfully induced in the rats. The AS control group rats showed the modulated level of lipid profile, and decreased the level of the SOD and boost the level of the MDA as compared with the normal control. However, crocetin thrived in enhancing the lipid profile toward the standard value in the normal control group rats. The crocetin and simvastatin group rats significantly inhibited the expression of the p-p38 MAPK as compared to the AS group rats. In conclusion, the current investigation revealed that the crocetin reduced the HCD induced dyslipidemia in the Wistar rats, the possible mechanism of action may be connected to the antioxidative, down regulating of p-p38 MAPK and antiinflammatory effect by crocetin.     

Validation of high performance liquid chromatography–electrochemical detection methods with simultaneous extraction procedure for the determination of artesunate,dihydroartemisinin, amodiaquine and desethylamodiaquine in human plasma for application in clinical pharmacological studies of artesunate–amodiaquine drug combination

With the expanded use of the combination of artesunate (AS) and amodiaquine (AQ) for the treatment of falciparum malaria and the abundance of products on the market, comes the need for rapid and reliable bioanalytical methods for the determination of the parent compounds and their metabolites. While the existing methods were developed for the determination of either AS or AQ in biological fluids, the current validated method allows simultaneous extraction and determination of AS and AQ in human plasma. Extraction is carried out on Supelclean LC-18 extraction cartridges where AS, its metabolite dihydroartemisinin (DHA) and the internal standard artemisinin (QHS) are separated from AQ, its metabolite desethylamodiaquine (DeAQ) and the internal standard, an isobutyl analogue of desethylamodiaquine (IB-DeAQ). AS, DHA and QHS are then analysed using Hypersil C4 column with acetonitrile–acetic acid (0.05 M adjusted to pH 5.2 with 1.00 M NaOH) (42:58, v/v) as mobile phase at flow rate 1.50 ml/min. The analytes are detected with an electrochemical detector operating in the reductive mode. Chromatography of AQ, DeAQ and IB-DeAQ is carried out on an Inertsil C4 column with acetonitrile–KH₂PO₄ (pH 4.0, 0.05 M) (11:89, v/v) as mobile phase at flow rate 1.00 ml/min. The analytes are detected by an electrochemical detector operating in the oxidative mode. The recoveries of AS, DHA, AQ and DeAQ vary between 79.1% and 104.0% over the concentration range of 50–1400 ng/ml plasma. The accuracies of the determination of all the analytes are 96.8–103.9%, while the variation for within-day and day-to-day analysis are <15%. The lower limit of quantification for all the analytes is 20 ng/ml and limit of detection is 8 ng/ml. The method is sensitive, selective, accurate, reproducible and suited particularly for pharmacokinetic study of AS–AQ drug combination and can also be used to compare the bioavailability of different formulations, including a fixed-dose AS–AQ co-formulation.     

Dominance of yeast in activated sludge under acidic pH and high organic loading

Flow cytometry-fluorescent in situ hybridization (FC-FISH) was used to investigate the effect of controlled pH and/or varied organic loading on the content of yeast and bacterial cells in an activated sludge system (AS) individually operating in continuous and batch mode for treatment of high-strength industrial wastewater. Specifically, we attempted to develop a yeast-predominant activated sludge system (Y-AS). For the batch-mode AS, bacteria-dominated AS (B-AS) obtained at pH 6.5–7.5 induced higher chemical oxygen demand (COD) removal than Y-AS obtained at acidic pH (5.0–6.0 and 4.0–5.0). For the continuous-mode AS operating at COD loadings of 2.5–2.8 kg COD m⁻³ d⁻¹, it was difficult to achieve a Y-AS solely by controlling the pH level at 7.0 to 5.1 then to 4.1 because bacteria stably accounted for greater than 98% of the total cells, regardless of the pH levels. Therefore, the effects of varied COD loadings (2.1, 8.7 and 21.0 kg COD m⁻³ d⁻¹) on continuous-mode AS operation at acidic pH (4.5) was investigated. Both acidic pH and high COD loading levels were found to be prerequisites for yeast to dominate the sludge microbial community in the continuous-mode AS.     

Synthesis and evaluation of 2-amino-dihydrotetrabenzine derivatives as probes for imaging vesicular monoamine transporter-2

A novel series of analogs of 2-amino-dihydrotetrabenazine derivatives, 4–6, targeting the vesicular monoamine transporter have been prepared. In vitro binding was carried out in tissue homogenates prepared from rat striatal tissue homogenates with both [¹²⁵I]-iodovinyl-TBZ and [³H]DTBZ. There was a good correlation (r² = 0.925) between the affinities of the different compounds for [¹²⁵I]-iodovinyl-TBZ and [³H]-DTBZ binding. Compound 5 exhibited a better affinity for the vesicular monoamine transporter (K_i = 8.68 ± 1.26 nM and 7.01 ± 0.07 nM, respectively), which may be a good lead compound for further structural modification to develop useful probes for VMAT2.     

Synthesis and evaluation of copper-64 labeled benzofuran derivatives targeting β-amyloid aggregates

In vivo imaging of β-amyloid (Aβ) aggregates consisting of Aβ(1–40) and Aβ(1–42) peptides by positron emission tomography (PET) contributes to the diagnosis and therapy for Alzheimer’s disease (AD). Because ⁶⁴Cu (t_1/2 = 12.7 h) is a radionuclide for PET with a longer physical half-life than ¹¹C (t_1/2 = 20 min) and ¹⁸F (t_1/2 = 110 min), it is an attractive radionuclide for the development of Aβ imaging probes that are suitable for routine use. In the present study, we designed and synthesized two novel ⁶⁴Cu labeled benzofuran derivatives and evaluated their utility as PET imaging probes for Aβ aggregates. In an in vitro binding assay, 6 and 8 showed binding affinity for Aβ(1–42) aggregates with a K_i value of 33 and 243 nM, respectively. In addition, these probes bound to Aβ plaques deposited in the brain of an AD model mouse in vitro. In a biodistribution experiment using normal mice, these probes showed low brain uptake (0.33% and 0.36% ID/g) at 2 min post-injection. Although refinement to enhance brain uptake is needed, [⁶⁴Cu]6 and [⁶⁴Cu]8 demonstrated the feasibility of developing novel PET probes for imaging Aβ aggregates.     

The biotransformation of astragalosides by a novel acetyl esterase from Absidia corymbifera AS2

Absidia corymbifera AS2 has been previously screened for effective biotransformation of astragalosides since it is able to catalyze the hydrolysis of acetyl ester moieties. In this study, an acetyl esterase from A. corymbifera AS2 was purified and its catalytic pathways were investigated. The purified enzyme was monomeric, with a molecular mass of 36 kDa, and with optimal activity observed at pH 8.0 and 35 °C. It was stable within pH 7.0–9.5 and at temperatures lower than 45 °C. The K_m and V_max values for p-nitrophenyl acetate was estimated to be 3.76 and 17.64 mmol (min mg)⁻¹, respectively. We found that this enzyme can hydrolyze the acetyl groups at positions O-2 or O-3 of xylopyranosyl residue at the C-3 position of AS-I, isoAS-I, AS-II and isoAS-II, and convert these all to ASI. The pathways of deacetylation catalyzed by this enzyme were also clarified for the first time: AS-II→ASI, isoAS-II→AS-II→ASI, AS-I→(AS-II, isoAS-II)→ASI and isoAS-I→AS-II→ASI. In summary, an acetyl esterase from A. corymbifera AS2 was extracted, which showed unique enzymatic characteristics and enabled clarification of the biotransformation pathways of astragalosides. This enzyme has potential industrial applications, especially for utilizing abundant astragaloside precursors for the production of rare ASI.     

Total internal reflectance fluorescence imaging of genetically engineered ryanodine receptor-targeted Ca2+ probes in rat ventricular myocytes

The details of cardiac Ca²⁺ signaling within the dyadic junction remain unclear because of limitations in rapid spatial imaging techniques, and availability of Ca²⁺ probes localized to dyadic junctions. To critically monitor ryanodine receptors’ (RyR2) Ca²⁺ nano-domains, we combined the use of genetically engineered RyR2-targeted pericam probes, (FKBP-YCaMP, K_d = 150 nM, or FKBP-GCaMP6, K_d = 240 nM) with rapid total internal reflectance fluorescence (TIRF) microscopy (resolution, ∼80 nm). The punctate z-line patterns of FKBP,²-targeted probes overlapped those of RyR2 antibodies and sharply contrasted to the images of probes targeted to sarcoplasmic reticulum (SERCA2a/PLB), or cytosolic Fluo-4 images. FKBP-YCaMP signals were too small (∼20%) and too slow (2–3 s) to detect Ca²⁺ sparks, but the probe was effective in marking where Fluo-4 Ca²⁺ sparks developed. FKBP-GCaMP6, on the other hand, produced rapidly decaying Ca²⁺ signals that: a) had faster kinetics and activated synchronous with I_Ca³ but were of variable size at different z-lines and b) were accompanied by spatially confined spontaneous Ca²⁺ sparks, originating from a subset of eager sites. The frequency of spontaneously occurring sparks was lower in FKBP-GCaMP6 infected myocytes as compared to Fluo-4 dialyzed myocytes, but isoproterenol enhanced their frequency more effectively than in Fluo-4 dialyzed cells. Nevertheless, isoproterenol failed to dissociate FKBP-GCaMP6 from the z-lines. The data suggests that FKBP-GCaMP6 binds predominantly to junctional RyR2s and has sufficient on-rate efficiency as to monitor the released Ca²⁺ in individual dyadic clefts, and supports the idea that β-adrenergic agonists may modulate the stabilizing effects of native FKBP on RyR2.     

Promising role of ferulic acid,atorvastatin and their combination in ameliorating high fat diet-induced stress in mice

AimsThe present study evaluated a comparative and combined hepatoprotective effect of atorvastatin (AS) and ferulic acid (F) against high fat diet (HFD) induced oxidative stress in terms of hyperlipidemia, anti-oxidative status, lipid peroxidation and inflammation.Main methodsMale Swiss albino mice were given a diet containing high fat (H) (23.9% wt/wt), supplemented with AS (10 mg/kg) or F (100 mg/kg) and both (10 and 100 mg/kg) for 8 weeks. The control mice (C) were fed with normal diet.Key findingsThe H mice exhibited increased body weight; hyperlipidemia; serum level of tumor necrosis factor alpha (TNF-α), interleukin-6 (IL-6); hepatic lipid profile; lipid accumulation; reactive oxygen species (ROS) of hepatocytes, lipid peroxidation and liver antioxidant capacity was decreased. Immunofluorescent and Western blot assay revealed activation of nuclear factor kappa B (NF-κB) signaling pathway. The addition of F or AS and both in the diet significantly counteracted HFD induced body weight gain; hyperlipidemia; TNF-α, IL-6; hepatic lipid profile; fatty infiltration; NF-κB signaling pathway; ROS; lipid peroxidation and moreover elevated levels of hepatic antioxidant enzymes activity were observed.SignificanceSimultaneous treatment with AS, F and their combination protected against HFD induced weight gain and oxidative stress. The protection may be attributed to the hypolipidemic and free radical scavenging activity of AS or F and their combination. This study illustrates that AS and F have relatively similar hypolipidemic, antioxidative, anti-inflammatory actions and the AS + F combination along with HFD has shown outstanding effects as compared to other treated groups.     

Does the presence of a vaginal probe alter pelvic floor muscle activation in young,continent women?

Vaginal probes may induce changes in pelvic floor muscle (PFM) recruitment by the very presence of the probes. Fine-wire electrodes allow us to detect muscle activation parameters without altering the natural position and shape of the PFMs. The purpose of this study was to determine whether PFM activation is altered by changes in sensory feedback, muscle length or tissue position caused by two different vaginal probes used to record surface electromyography (EMG). Twelve continent women (30.1 ± 5.4 years), performed PFM maximal voluntary contractions (MVCs) in supine while fine-wire EMG was recorded bilaterally from the PFMs under three conditions: (a) without any probe inserted into the vagina, (b) while a Femiscan? probe was in situ, and (c) while a Periform? vaginal probe was in situ. The reliability of the fine wire EMG data was assessed using intra-class correlation coefficients (ICCs) and coefficients of variation (CV). A repeated measures analysis of variance (ANOVA) model was used to determine if there were differences in EMG amplitude recorded when the different vaginal probes were in situ. For each condition the between-trial reliability was excellent, ICC_(3,1) = 0.93–0.96, (p < 0.001) and CV = 11.2–21.8%. There were no differences in peak EMG amplitude recorded during the MVCs across the three conditions (no probe 63.4 ± 48.4 μV, Femiscan? 55.3 ± 42.4 μV, Periform? 59.4 ± 42.2 μV, p = 0.178). These results suggest that women produce consistent MVCs over multiple contractions, and that PFM muscle activation is not affected by different probes inserted into the vagina.     

Chromosomal assignment of porcine pregnancy-associated glycoprotein gene family

This study presents the chromosomal assignment of a multiple pregnancy-associated glycoprotein (PAG) gene family in the domestic pig (pPAG). The pPAG locus was identified by physical mapping (fluorescent in situ hybridisation—FISH; with various probes), and additionally confirmed by Southern hybridisation of pPAG amplicons using laser microdissected Sus scrofa chromosome 1 (SSC1), as genomic templates. Various pPAG probes were produced with the use of diverse identified templates: pPAG1-6, -8, -10 cDNAs (GenBank: L34360–1, AF315377, AF272734, AY188554, AF272735, AY373029 and AY775784, respectively), or genomic DNA (gDNA) probes of pPAG2 gene and its promoter (GenBank: U39198–9, U39762–3, U41421–4). All probes, including long gDNA probes (～9.2 kbp GpPAG2 gene; ～2.8 kbp GpPAG2 promoter), a shorter cDNA probe (PlpPAG4, 1385 bp) and amplified pPAG2-like probes (ApPAG2L) specific for cDNA inserts of pPAG2-like gene subfamily (pPAG2, -4, -6, -8 and -10; 1283–1385 bp) were produced by random priming using biotin-labelled deoxynucleotides (16-dUTP). Numerous FISH mappings with various pPAG probes revealed the chromosomal assignment of the pPAG gene family to the long arm of porcine chromosome 1 (SSC1q16–q24 region). This cytogenetic assignment was confirmed by Southern hybridisation (with ³²P-labelled pPAG10 probe) of multiple distinct pPAG amplicons (603–3943 bp) produced with the use of 25 laser microdissected SSC1, as gDNA templates. This is the first study identifying the chromosomal locus of the pPAG gene family in the pig.     

Synthesis and biological evaluation of C-2 halogenated analogs of salvinorin A

Salvinorin A (1), the main active ingredient of Salvia divinorum, is a potent and selective κ opioid receptor (KOPR) agonist. Based on the SAR, its C-2 position is one of the key binding sites and has very little space tolerance (3–4 carbons atoms) and limited to only lipophilic groups. In our attempt to prepare PET brain imaging agent for mapping KOPR, a series of C-2 halogenated analogs have been synthesized and screened for binding affinity at κ (KOPR), μ (MOPR), and δ (DOPR). These C-2 halogenated analogs with sequential changes of atomic radius and electron density serve as excellent molecular probes for further investigating the binding pocket at C-2, particularly on the effects of α verses β configuration at C-2 position. The results of KOPR binding and functional studies reveal β isomer in general binds better than α isomer with the exception of iodinated analogs and none of the C-2 halogenated analogs shows any improvement of KOPR binding affinity. Interestingly, functional assay has characterized that 6b is a partial agonist with E_max of 46% of the kappa receptor full agonist U50,488H at 250 nM (K_i). We have also observed that the affinity to the kappa receptor increases with atomic radius (I > Br > Cl > F) which is in good agreement with halogen bonding interactions reported in the literature.     

Mitochondrial free [Ca2+] levels and the permeability transition

Mitochondrial Ca²⁺ activates many processes, from mitochondrial metabolism to opening of the permeability transition pore (PTP) and apoptosis. However, there is considerable controversy regarding the free mitochondrial [Ca²⁺] ([Ca²⁺]_M) levels that can be attained during cell activation or even in mitochondrial preparations. Studies using fluorescent dyes (rhod-2 or similar), have reported that phosphate precipitation precludes [Ca²⁺]_M from increasing above 2–3 μM. Instead, using low-Ca²⁺-affinity aequorin probes, we have measured [Ca²⁺]_M values more than two orders of magnitude higher. We confirm here these values by making a direct in situ calibration of mitochondrial aequorin, and we show that a prolonged increase in [Ca²⁺]_M to levels of 0.5–1 mM was actually observed at any phosphate concentration (0–10 mM) during continuous perfusion of 3.5–100 μM Ca²⁺-buffers. In spite of this high and maintained (>10 min) [Ca²⁺]_M, mitochondria retained functionality and the [Ca²⁺]_M drop induced by a protonophore was fully reversible. In addition, this high [Ca²⁺]_M did not induce PTP opening unless additional activators (phenyl arsine oxide, PAO) were present. PAO induced a rapid, concentration-dependent and irreversible drop in [Ca²⁺]_M. In conclusion [Ca²⁺]_M levels of 0.5–1 mM can be reached and maintained for prolonged periods (>10 min) in phosphate-containing medium, and massive opening of PTP requires additional pore activators.     

Synthesis,spectral and magnetical characterization of monomeric [Cu(2-NO2bz)2(3-pyme)2(H2O)2] and polymeric [Cu{3,5-(NO2)2bz}2(3-pyme)2]n

Two new complexes of composition [Cu(2-NO₂bz)₂(3-pyme)₂(H₂O)₂] (1) and/or [Cu{3,5-(NO₂)₂bz}₂(3-pyme)₂] (2) (3-pyme = 3-pyridylmethanol, ronicol or 3-pyridylcarbinol, 2-NO₂bz = 2-nitrobenzoate and 3,5-(NO₂)₂bz = 3,5-dinitrobenzoate) have been prepared and studied by elemental analysis, electronic, infrared and EPR spectroscopy, magnetic susceptibility measurements and the structure of both complexes has been solved. Complex (1) shows an unusual molecular type of structure consisting of the [Cu(2-NO₂bz)₂(3-pyme)₂(H₂O)₂] molecules held together by hydrogen bonds and van der Waals interactions. Complex (2) exhibits a polymeric chain-like structure [Cu{3,5-(NO₂)₂bz}₂(3-pyme)₂]_n with copper atoms doubly bridged by two 3-pyridylmethanol molecules and the polymeric molecules are held together by van der Waals interactions. Complex (1) exhibits a magnetic moment μ_eff = 1.84 B.M. at 300 K that remains nearly constant within the temperature region (5–300 K). Further cooling results in lowering the magnetic moment to μ_eff = 1.82 B.M. at 1.8 K. The magnetic susceptibility temperature dependence obeys Curie–Weiss law with Curie constant of 0.423 cm³ K mol⁻¹ and with Weiss constant of −0.06 K. The magnetic moment of (2) exhibits a small increase with a decrease in the temperature (μ_eff = 1.80 B.M. at 300 K and μ_eff = 1.85 B.M. at 1.8 K) with Curie constant of 0.409 cm³ K mol⁻¹ and with Weiss constant of +1.1 K, which can indicate a very weak ferromagnetic interaction between the copper atoms within the chain. Applying the molecular field model resulted in obtaining zJ′ values −0.08 cm⁻¹ for complex (1), and −0.07 cm⁻¹ for complex (2), respectively, that could characterize intermolecular and interchain interactions transmitted through π–π stacking.     

Use of manure concentrations of ash or specific minerals and nitrogen to estimate loss of volatile nitrogen from manure incubated under laboratory conditions

Changes in the ratio of volatile N to non-volatile specific minerals or total ash in manure can potentially be used to estimate losses of N from manure. The aim of this study was to evaluate the accuracy of using specific minerals (P, K, Ca, Mg, and Na) or total ash as markers to estimate volatile N losses from incubated manure slurries. Holstein cows were fed diets with the forage as predominantly corn silage (CS) or alfalfa silage (AS) or a diet identical to the CS diet except 5 g/kg urea was added (CSU). Total output of urine and feces were measured and used to prepare two types of slurry mixtures (all slurry mixtures contained 1200 g of manure per tray): (1) as excreted (AsEx) and (2) AsEx + sand (SAND). The SAND slurry was designed to mimic manure from barns that used sand as a bedding material. Feces and urine were mixed in the same proportion as excreted by the cows for both slurry types and 240 g of sand were added to the SAND slurries. Initial and final (3 d incubation period) slurry weights and concentrations of N, ash, and specific minerals were measured to calculate loss of volatile N. Losses of volatile N from the slurries were estimated as: (N intake ? N milk) ? [N/ash × (ash intake ? ash milk)], where N and ash intake = g/d consumed by the cow; N and ash milk = g/d secreted in milk; and N/ash = ratio of N and ash concentrations in slurry samples at 3 d. To evaluate specific minerals as markers, the same equation was used except that Ca, K, Mg, Na or P replaced the ash term. Measured N losses from the AsEx slurries were 0.44, 0.62, and 1.03 g/3 d for the AS, CS, and CSU treatments and estimated N losses (using N/ash) were 0.29, 0.49, and 1.14 g/3 d. Estimated losses were less than measured losses for cows with negative N balance and greater than measured losses for cows in positive N balance. For AsEx slurries, the use of N to specific mineral ratios was generally less accurate than using the N/ash ratio. Estimated N losses from SAND slurries were extremely inaccurate for all markers. The use of the N/ash ratio to estimate N volatilization from manure shows promise but markers that are in appreciable concentrations in bedding material will not be accurate.     

Opposite changes in cannabinoid CB1 and CB2 receptor expression in human gliomas

Gliomas are the most important group of malignant primary brain tumors and one of the most aggressive forms of cancer. During the last years, several studies have demonstrated that cannabinoids induce apoptosis of glioma cells and inhibit angiogenesis of gliomas in vivo. As the effects of cannabinoids rely on CB₁ and CB₂ receptors activation, the aim of the present study was to investigate both receptors protein expression in cellular membrane homogenates of human glial tumors using specific antibodies raised against these proteins. Additionally, we studied the functionality of the cannabinoid receptors in glioblastomas by using WIN 55,212-2 stimulated [³⁵S]GTPγS binding.Western blot analysis showed that CB₁ receptor immunoreactivity was significantly lower in glioblastoma multiforme (?43%, n = 10; p < 0.05) than in normal post-mortem brain tissue (n = 16). No significant differences were found for astrocytoma (n = 6) and meningioma (n = 8) samples. Conversely, CB₂ receptor immunoreactivity was significantly greater in membranes of glioblastoma multiforme (765%, n = 9; p < 0.05) and astrocytoma (471%, n = 4; p < 0.05) than in control brain tissue (n = 10). Finally, the maximal stimulation of [³⁵S]GTPγS binding by WIN 55,212-2 was significantly lower in glioblastomas (134 ± 4%) than in control membranes (183 ± 2%; p < 0.05). The basal [³⁵S]GTPγS binding and the EC₅₀ values were not significantly different between both groups.The present results demonstrate opposite changes in CB₁ and CB₂ receptor protein expression in human gliomas. These changes may be of interest for further research about the therapeutic effects of cannabinoids in glial tumors.     

A new use of β-Ala-Lys (AMCA) as a transport reporter for PEPT1 and PEPT2 in renal brush border membrane vesicles from the outer cortex and outer medulla

Integral membrane proteins PEPT1 and PEPT2 are essential for reabsorbing almost all hydrolysed or filtered di- and tripeptides alongside a wide range of peptidomimetic drugs in the kidney. The aim of this study was to investigate the potential use of the fluorophore-conjugated dipeptide β-Ala-Lys (AMCA) as a biosensor for measuring peptide transport activity in brush border membrane vesicles isolated from the outer cortex (BBMV-OC) and outer medulla (BBMV-OM) (representing PEPT1 and PEPT2 respectively). The vesicles were isolated using a dual magnesium precipitation and centrifugation technique. Intravesicular fluorescence accumulation was measured after incubating extra-vesicular media at pH 6.6 and different concentrations of β-Ala-Lys (AMCA) with vesicles pre-equilibrated at pH 7.4. Both BBMV-OC and BMMV-OM showed accumulation of an intravesicular fluorescence signal after 20 min incubation. Changing the extra-vesicular pH to 7.4 caused a significant reduction in the β-Ala-Lys (AMCA) uptake into BBMV-OC at concentrations > 100 μM. When different concentrations of dipeptide, Gly-Gln was added, there was a significant inhibition of 100 μM β-Ala-Lys (AMCA) uptake into BBMV-OC and BMMV-OM, reaching 69% and 80%, respectively. Kinetic analysis of β-Ala-Lys (AMCA) at 20 min showed that the K_m and V_max were 783.7 ± 115.7 μM and 2191.2 ± 133.9 ΔF/min/mg for BBMV-OC, while BMMV-OM showed significantly higher affinity, but lower capacity at K_m = 93.6 ± 21.9 μM and V_max = 935.8 ± 50.2 ΔF/min/mg. These findings demonstrate the applicability of β-Ala-Lys (AMCA) as a biosensor to measure the transport activity of the renal-type PEPT1 and PEPT2 in BBMV-OC and BMMV-OM respectively.     

F281, synthetic agonist of the sigma-2 receptor,induces Ca2+ efflux from the endoplasmic reticulum and mitochondria in SK-N-SH cells

We demonstrate that F281, a synthetic agonist of the sigma-2 receptor (s2R), induces a non transient increase in intracellular [Ca²⁺] ([Ca²⁺]_i) and cell death in SK-N-SH cells. Sigma receptors are classified into two subtypes, with different molecular weight and tissue distribution. While the sigma-1 receptor has been cloned, the s2r is less characterized and its physiological ligand and role need further investigation. In tumour cell lines, synthetic agonists of the s2R trigger apoptosis and modulate [Ca²⁺]_i. In particular, CB-64D induces a Ca²⁺ response while PB28 supresses Ca²⁺ signalling. We have recently synthesized F281, by replacing the 5-methoxytetraline moiety of PB28 with a carbazole nucleus. Although this bioisosteric substitution should not affect the ligand affinity at the receptor, F281 (after 24 h incubation) was more cytotoxic than PB28 (EC₅₀ values 65.4 nM and 8.13 μM, respectively) in SK-N-SH cells. We used the fluorescent probes fura-2, rhod-2 and JC-1. F281 mobilizes Ca²⁺ from mitochondria and from the endoplasmic reticulum, by opening its inositol 1,4,5-trisphosphate receptor; Ca²⁺-entry through the channels activated by store depletion was also observed. After the increase in [Ca²⁺]_i and within 10 min, we observed a sudden drop in metabolic activity and intracellular [ATP] leading to cell death.     

An experimental and theoretical study of the electronic spectra of tetraethylammonium [bis(1,3-dithiole-2-thione-4,5-dithiolato)zincate(II)], [NEt4]2[Zn(dmit)2], and tetraethylammonium [bis(1,3-dithiole-2-one-4,5-dithiolato)zincate(II)], [NEt4]2[Zn(dmio)2]

Metal-dmit complexes and related compounds have been the object of intense study in the last decade. Despite such efforts on the study of its structural properties, very few attempts have been made to the spectroscopic study of these metal complexes. Experimental reports of its infrared, Raman and UV–Vis spectra present the main spectroscopic features, however, many details of the electronic structure have still to be fully investigated and inconsistent assignments are found in the literature. This work presents a detailed analysis of the UV–Vis spectra of the zinc-dmit, [Zn(dmit)₂]⁻², and the zinc-dmio complex, [Zn(dmio)₂]⁻². The experimental spectrum was deconvoluted and analysed with several theoretical methodologies including ab initio CI calculations, ab initio TD and zindo semi-empirical methods. The results confirm the multi-configuration nature of several excited states and the calculated results were concordant for several transitions. The results lead to a new assignment of the 457 nm band in the [Zn(dmit)₂]⁻² as π(pS_m) → π*CS band. In the metal-dmio, the sulfur substitution by oxygen results in a larger HOMO–LUMO gap and a change in the nature of the frontier orbitals. As the first transition we found, for the dmit compound, a high-intensity π → π*CS while for the zinc-dmio, a low-intensity π → σ*C–S transition.     

Synthesis and biological evaluation of pyrrolidine-2-carbonitrile and 4-fluoropyrrolidine-2-carbonitrile derivatives as dipeptidyl peptidase-4 inhibitors for the treatment of type 2 diabetes

A novel series of pyrrolidine-2-carbonitrile and 4-fluoropyrrolidine-2-carbonitrile derivatives was designed, synthesized, and found to act as dipeptidyl peptidase-4 (DPP-4) inhibitors. From this series of compounds, compound 17a was identified as an efficacious, safe, and selective inhibitor of DPP-4. In vivo studies in ICR and KKAy mice showed that administration of this compound resulted in decreased blood glucose in these mice after an oral glucose challenge. Compound 17a showed high DPP-4 inhibitory activity (IC₅₀ = 0.017 μM), moderate selectivity against DPP-4 (selective ratio: DPP-8/DPP-4 = 1324; DPP-9/DPP-4 = 1164), and good efficacy in oral glucose tolerance tests in ICR and KKAy mice. These in vivo anti-diabetic properties and its desirable pharmacokinetic profile in Sprague–Dawley rats demonstrate that compound 17a is a promising candidate for development as an anti-diabetic agent.