Molar-mass-dependent antibacterial activity of cationic dextran derivatives against resistant nosocomial pathogens.

The rise of various multidrug-resistant bacteria has created a need for new biocompatible and biodegradable antibacterial compounds. Cationic polysaccharides are promising candidates for this role. Therefore, cationic derivatives of commercial dextrans with molar masses of 11 kDa, 76 kDa, 411 kDa, and 1500-2500 kDa and various degrees of substitution (DSQ 0.34-0.52) were prepared and their antimicrobial properties against four gram-negative nosocomial bacteria were tested. As expected, a higher DSQ led to higher efficiency. The best antimicrobial properties were found for derivatives of 411 kDa, followed by 76 kDa and 1500-2000 kDa dextrans. This indicates that there is a certain optimum molar mass with the best antimicrobial properties. However, as molar mass increased, the biocompatibility of cationic dextran steadily decreased, with increased hemagglutination and toxicity being seen for human cells. The derivatives of 76 kDa dextran with higher DSQ (0.40-0.52) were the best antimicrobial agents suitable for further clinical testing.

Redox aspects of cytotoxicity and anti-neuroinflammatory profile of chloroquine and hydroxychloroquine in serum-starved BV-2 microglia.

Chloroquine (CQ) and hydroxychloroquine (HCQ) have long been used worldwide to treat and prevent human malarias. However, these 4-aminoquinolines have also shown promising potential in treating chronic illnesses with an inflammatory component, including neurological diseases. Given the current demand for serum avoidance during pharmacological testing and modeling of some pathologies, we compared cytotoxicities of CQ and HCQ in both serum-deprived and -fed murine BV-2 microglia. Furthermore, we assessed the anti-neuroinflammatory potential of both compounds in serum-deprived cells. Under both conditions, CQ showed higher cytotoxicity than HCQ. However, the comparable MTT-assay-derived data measured under different serum conditions were associated with disparate cytotoxic mechanisms of CQ and HCQ. In particular, under serum starvation, CQ mildly enhanced secondary ROS, mitochondrial hyperpolarization, and decreased phagocytosis. However, CQ promoted G1 phase cell cycle arrest and mitochondrial depolarization in serum-fed cells. Under both conditions, CQ fostered early apoptosis. Additionally, we confirmed that both compounds could exert anti-inflammatory effects in microglia through interference with MAPK signaling under nutrient-deprivation-related stress. Nevertheless, unlike HCQ, CQ is more likely to exaggerate intracellular prooxidant processes in activated starved microglia, which are inefficiently buffered by Nrf2/HO-1 signaling pathway activation. These outcomes also show HCQ as a promising anti-neuroinflammatory drug devoid of CQ-mediated cytotoxicity.

Skin Aging, Cellular Senescence and Natural Polyphenols.

The skin, being the barrier organ of the body, is constitutively exposed to various stimuli impacting its morphology and function. Senescent cells have been found to accumulate with age and may contribute to age-related skin changes and pathologies. Natural polyphenols exert many health benefits, including ameliorative effects on skin aging. By affecting molecular pathways of senescence, polyphenols are able to prevent or delay the senescence formation and, consequently, avoid or ameliorate aging and age-associated pathologies of the skin. This review aims to provide an overview of the current state of knowledge in skin aging and cellular senescence, and to summarize the recent in vitro studies related to the anti-senescent mechanisms of natural polyphenols carried out on keratinocytes, melanocytes and fibroblasts. Aged skin in the context of the COVID-19 pandemic will be also discussed.

An update in toxicology of ageing.

The field of ageing research has been rapidly advancing in recent decades and it had provided insight into the complexity of ageing phenomenon. However, as the organism-environment interaction appears to significantly affect the organismal pace of ageing, the systematic approach for gerontogenic risk assessment of environmental factors has yet to be established. This puts demand on development of effective biomarker of ageing, as a relevant tool to quantify effects of gerontogenic exposures, contingent on multidisciplinary research approach. Here we review the current knowledge regarding the main endogenous gerontogenic pathways involved in acceleration of ageing through environmental exposures. These include inflammatory and oxidative stress-triggered processes, dysregulation of maintenance of cellular anabolism and catabolism and loss of protein homeostasis. The most effective biomarkers showing specificity and relevancy to ageing phenotypes are summarized, as well. The crucial part of this review was dedicated to the comprehensive overview of environmental gerontogens including various types of radiation, certain types of pesticides, heavy metals, drugs and addictive substances, unhealthy dietary patterns, and sedentary life as well as psychosocial stress. The reported effects in vitro and in vivo of both recognized and potential gerontogens are described with respect to the up-to-date knowledge in geroscience. Finally, hormetic and ageing decelerating effects of environmental factors are briefly discussed, as well.

Proteasome Biology: Chemistry and Bioengineering Insights.

Proteasomal degradation provides the crucial machinery for maintaining cellular proteostasis. The biological origins of modulation or impairment of the function of proteasomal complexes may include changes in gene expression of their subunits, ubiquitin mutation, or indirect mechanisms arising from the overall impairment of proteostasis. However, changes in the physico-chemical characteristics of the cellular environment might also meaningfully contribute to altered performance. This review summarizes the effects of physicochemical factors in the cell, such as pH, temperature fluctuations, and reactions with the products of oxidative metabolism, on the function of the proteasome. Furthermore, evidence of the direct interaction of proteasomal complexes with protein aggregates is compared against the knowledge obtained from immobilization biotechnologies. In this regard, factors such as the structures of the natural polymeric scaffolds in the cells, their content of reactive groups or the sequestration of metal ions, and processes at the interface, are discussed here with regard to their influences on proteasomal function.

Protoflavones in melanoma therapy: Prooxidant and pro-senescence effect of protoapigenone and its synthetic alkyl derivative in A375 cells.

AIMS: In our study, the anticancer effects of a semisynthetic p-quinol, protoapigenone 1'-O-butyl ether (PABut), were tested in human melanoma A375 cells also in comparison with natural congener, protoapigenone (PA). MAIN METHODS: The cytotoxic effect of PABut and PA was determined using MTT assay. Flow cytometry analysis was used to evaluate the influence of the compounds tested on ROS generation and cell cycle distribution in A375 cells. Moreover, apoptosis was evaluated by AO/EB dual staining as well as by flow cytometry. Markers of senescence were quantified by spectrofluorimetry and by Western blot analysis. KEY FINDINGS: Both PABut and PA showed significant cytotoxicity against melanoma A375 cells at sub-micromolar concentrations. Both protoflavones induced comparable cell cycle arrest in G2/M phase. However, a more profound upregulation of intracellular ROS levels was found following PABut treatment. An increased apoptosis in the cells following 48 h treatment with both protoflavones tested was also confirmed. Both compounds tested remarkably upregulated p21 protein levels in A375 cells. Unlike PA, PABut significantly decreased protein levels of NAD+-dependent deacetylase SirT1 and ß-actin accompanied by mild significant upregulation of mitochondrial SOD2 and senescence markers, p16 protein and SA-ß-Gal activity. However, a significant upregulation of p53 only following PA treatment was found. SIGNIFICANCE: These results suggest that PABut and PA confer high chemotherapeutic potential in melanoma cells and are suitable for further testing. Furthermore, modification of protoapigenone with 1'-O-butyl ether moiety can be associated with improved senescence-inducing effect and, thus, enhanced chemotherapeutic potency of PABut compared to the unmodified natural protoflavone.

Anti-staphylococcal activity of quaternized mannan from the yeast Candida albicans.

Global increase of antibiotic-resistant pathogens as well as elevated content of drug residues in the foodstuffs and the environment urgently calls for new biocompatible antimicrobial biomaterials. Yeast mannans represent readily available source of biodegradable materials for tailor-made derivatives that could be effective in biomedical applications. Here, antimicrobial properties of quaternized mannans (DSQ 0.12, 0.24, 0.30, 0.62) from Candida albicans against clinical multi-resistant strains of Staphylococcus aureus are confronted with possible cytotoxicity against human cells. As expected, both effects increase with increasing degree of quaternization. However, it is possible to define the "window", at quaternized mannan with DSQ 0.30 with good anti-microbial effectiveness and low cytotoxicity. This derivative exhibit minimum inhibitory (MIC) and minimum bactericidal (MBC) concentration from 62.5 to 250 µg/mL and demonstrate good biofilm inhibition effect. Also acceptable values were obtained in hemagglutination and hemolytic activity assays and also in cytotoxicity tests on human fibroblasts.

Semisynthetic quercetin-quinone mitigates BV-2 microglia activation through modulation of Nrf2 pathway.

During brain ageing, microglia, the resident immune cells of the CNS, are immunologically activated and contribute to neuroinflammation, a vicious cycle that supports development of neurological disorders. Therapeutic approaches focus mainly on downregulation of their pro-inflammatory activated state that is associated with health benefits. Electrophilic compounds, such as natural quinones and their reduced pro-electrophilic precursors, flavonoids, represent a wide group of diverse substances with important biological effects. They can cause considerable cytotoxicity when used at higher dosages, but on the other hand, they have versatile health benefits at lower dosages. In this study, we investigated the cytotoxicity and prooxidant profile of synthetic conjugate of two electrophilic compounds, quercetin and 1,4-naphthoquinone, 4'-O-(2-chloro-1,4-naphthoquinone-3-yloxy) quercetin (CHNQ), and its attenuation of inflammatory responses and modulation of Nrf2 pathway in BV-2 microglial cells. CHNQ showed higher cytotoxicity than its precursors, accompanied by promotion of production of reactive oxygen species along with G2/M cell cycle arrest at higher concentrations tested. Nevertheless, at a lower non-toxic concentration, CHNQ, more significantly than did its precursors, downregulated LPS-stimulated microglia cells as documented by decreased iNOS, COX-2 and TNFα protein levels. Moreover, CHNQ most effectively upregulated expression of phase II antioxidant enzyme HO-1 and ß5 subunit of constitutive proteasome. The enhanced anti-inflammatory effect of CHNQ was accompanied by prominent increase in cytosolic expression of Nrf2 and c-Jun, however, induction effect on nuclear Nrf2 translocation was comparable to QUER. Moreover, a conditioned medium from activated BV-2 cells co-treated with quercetin and CHNQ maintained viability of neuron-like PC12 cells. The compounds tested did not show any disturbance of phagocytosis of live or dead PC12 cells. The present experimental data predict a preventive and therapeutic potential of semisynthetic derivative CHNQ in ageing and related pathologies, mediated by activation of proteins of the antioxidant response.

Protective Effect of Semisynthetic and Natural Flavonoid on Aged Rat Microglia-enriched Cultures.

The ROS-mediated lysosomal dysfunction and coinciding deterioration of mitochondrial function are thought to be the prominent mechanisms responsible for aging. Microglia, the resident macrophages in the central nervous system, were postulated to belong to the major targets vulnerable to these detrimental processes, acting as principal drivers in brain aging. The present study investigated the potential protective effect of the semisynthetic flavonoid 3'-O-(3-chloropivaloyl) quercetin (CPQ) and quercetin (Q) on microglia-enriched mixed brain cultures (MBCs) established from aged Wistar rats. Both flavonoids tested suppressed the development of lipofuscin-related autofluorescence in aged cells. Further ensuing protective effects included reduction of protein oxidation markers in aged cells. Moreover, unlike Q, CPQ significantly suppressed sensitivity of aged cells to stimulation of superoxide burst. Other activation markers, cellular hypertrophy and isolectin B4 binding, were also downregulated by treatment with both CPQ and Q. In conclusion, results of our study suggest that both flavonoids tested may protect microglia with a quite comparable efficacy against aging-related accumulated alterations. The protective mechanism can include interference with the ROS-mediated vicious cycles involving lysosomal dysfunction. Nevertheless, the lipophilized quercetin, CPQ, a compound with proposed enhanced biological availability compared to parent molecule, can represent an agent potentially useful for new effective pharmaceutical intervention against brain aging, overcoming the limitations of clinical applicability of quercetin.

General toxicity assessment of the novel aldose reductase inhibitor cemtirestat.

Cemtirestat, 3-mercapto-5H-[1,2,4]-triazino[5,6-b] indole-5-acetic acid was recently designed and patented as a highly selective and efficient aldose reductase inhibitor endowed with antioxidant activity. The aim of the present study was to assess the general toxicity of cemtirestat using in silico predictions, in vitro and in vivo assays. ProTox-II toxicity prediction software gave 17 "Inactive" outputs, a mild hepatotoxicity score (0.52 probability) along with a predicted LD50 of 1000 mg/kg. Five different cell lines were used including the immortalized mouse microglia BV-2, the primary human fibroblasts VH10, the insulinoma pancreatic ß-cells INS-1E, the human colon cancer cells HCT116 and the human immortalized epithelial endometrial cell lines HIEEC. In contrast to the clinically used epalrestat, cemtirestat showed remarkably low cytotoxicity in several different cell culture viability tests such as MTT proliferation assay, neutral red uptake, BrdU incorporation, WST-1 proliferation assay and propidium iodide staining followed by flow cytometry. In a yeast spotting assay, the presence of cemtirestat in incubation of Saccaromyces cerevisiae at concentrations as high as 1000 µM did not affect cell growth rate significantly. In the 120-day repeated oral toxicity study in male Wistar rats with daily cemtirestat dose of 6.4 mg/kg, no significant behavioral alterations or toxicological manifestations were observed in clinical and pathological examinations or in hematological parameters. In summary, these results suggest that cemtirestat is a safe drug that can proceed beyond preclinical studies.

Dysfunction of SERCA pumps as novel mechanism of methylglyoxal cytotoxicity.

A novel pathway of methylglyoxal (MGX)-induced apoptosis via sarcoplasmic reticulum Ca2+-ATPase (SERCA) is presented. Interaction of SERCA1 with MGX was investigated by molecular docking and experimentally in a cell-free system. MGX concentration- and time-dependently decreased SERCA1 activity. A significant increase of sarcoplasmic reticulum (SR) carbonylation was found in the concentration range of 1-10 mM caused by MGX and a decrease of thiol groups at the concentrations of 5 and 40 mM. Affinities of SERCA1 to ATP and Ca2+ were not influenced by MGX, however decreases of Vmax related to both binding sites were observed. Molecular docking indicated binding of MGX at the cytosolic region of SERCA1, inducing conformational changes in the cytosolic-transmembrane interface. This interaction resulted in conformational changes in the cytosolic region (FITC fluorescence decrease) as well as in the transmembrane region of SERCA1 (Trp fluorescence decrease) without direct binding to the cytosolic ATP or transmembrane Ca2+ binding sites. Regarding the MGX inhibitory effect in a cell-free system and similarities of SERCA1 to its other isoforms, proapoptotic properties of MGX may be expected in cellular systems. At cellular level, MGX induced a decrease of SERCA2b expression in the pancreatic INS-1E ß-cell line. This was accompanied by cell viability decrease, increase in apoptosis, impaired insulin secretion and elevation of basal intracellular Ca2+ levels. Decreased expression of SERCA2b may contribute to induction of apoptosis of pancreatic ß-cells.

Pycnogenol Cytotoxicity in Pancreatic INS-1E ß cells Induced by Calcium Dysregulation.

Natural standardized flavonoid extract from the bark of Pinus pinaster, Pycnogenol (Pyc), was recently found to decrease intensively the activity of sarcoplasmic reticulum Ca2+ -ATPase of rabbit skeletal muscle (SERCA1). On the basis of this inhibitory effect in a cell-free system and similarities of SERCA1 to its other isoforms, proapoptotic properties of Pyc may be expected in cellular systems. Pycnogenol (40-100 µg/mL) induced a concentration-dependent decrease of the viability of pancreatic INS-1E ß cells associated with induction of apoptosis. In addition, intracellular Ca2+ level increase was found along with reduction of protein expression level of SERCA2b and impairment of insulin secretion by ß cells. These facts indicate that Pyc may induce apoptosis by impairment of calcium homeostasis. Copyright © 2017 John Wiley & Sons, Ltd.

Novel quercetin derivatives: From redox properties to promising treatment of oxidative stress related diseases.

A set of O-substituted quercetin derivatives was prepared with the aim to optimize bioavailability and redox properties of quercetin, a known agent with multiple health beneficial effects. Electron-acceptor/-donor properties of the agents were evaluated theoretically by quantum chemical calculations and by experimental methods in cell-free model systems (2,2-diphenyl-1-picrylhydrazyl (DPPH) test, the ferric reducing ability of plasma (FRAP), peroxynitrite scavenging, protein-thiol oxidation) and in cellular systems of fibroblasts, microglials and cancer lines. The order of individual antioxidant effects varied dependently on the system used. In cellular systems, quercetin derivatives were shown to be better antioxidants compared to quercetin. Monochloropivaloylquercetin (CPQ), monoacetylferuloylquercetin (MAFQ) and chloronaphthoquinonequercetin (CHNQ) showed a prominent inhibitory effect on the key enzymes involved in diabetic complications, aldose reductase and α-glucosidase, suggesting their promising therapeutic application. In the cellular models of BHNF-3 fibroblasts, microglial cell line BV-2, colorectal cancer cell lines HCT-116 and HT-29, CHNQ and CPQ were studied for their cytotoxic, antiproliferative and antiinflammatory properties. In the rat model, CHNQ attenuated colon inflammation induced by acetic acid. In summary, our studies revealed CPQ and CHNQ as potential remedies of chronic age-related metabolic or inflammatory diseases, including diabetes and neurodegenerations. Furthermore, CHNQ represents a novel promising agent exerting its anticancer effect through induction of oxidative stress-dependent cell death.

Pyridoindole SMe1EC2 as cognition enhancer in ageing-related cognitive decline.

Synthetic pyridoindole-type substances derived from the lead compound stobadine represent promising agents in treatment of a range of pathologies including neurological disorders. The beneficial biological effects were suggested to be likely associated with their capacity to ameliorate oxidative damage. In our study, the effect of supplementation with the derivative of stobadine, SMe1EC2, on ageing-related cognitive decline in rats was investigated. The 20-months-old male Wistar rats were administered SMe1EC2 at a low dose, 0.5 mg/kg, daily during eight weeks. Morris water maze test was performed to assess the spatial memory performances. The cell-based assays of capacity of SMe1EC2 to modulate proinflammatory generation of oxidants by microglia were also performed. The rats treated with SMe1EC2 showed significantly increased path efficiency, significantly shorter time interval of successful trials and exerted also notably lower frequencies of clockwise rotations in the pool compared to non-supplemented aged animals. Mildly improved parameters included test durations, distances to reach the platform, time in periphery of the pool and overall rotations in the water maze. However, the pyridoindole SMe1EC2 did not show profound inhibitory effect on production of nitric oxide and superoxide by activated microglial cells. In conclusion, our study suggests that pyridoindole SMe1EC2, at low doses administered chronically, can act as cognition enhancing agent in aged rats. The protective mechanism less likely involves direct modulation of proinflammatory and prooxidant state of microglia, the prominent mediators of neurotoxicity in brain ageing and neurodegeneration.

Modulation of BV-2 microglia functions by novel quercetin pivaloyl ester.

Chronic inflammation in brain plays a critical role in major neurodegenerative diseases such as Alzheimer's, Parkinson's disease, stroke or multiple sclerosis. Microglia, resident macrophages and intristinc components of CNS, appear to be main effectors in this pathological process. Quercetin, a naturally occurring flavonoid, was proven to downregulate inflammatory genes in microglia. Synthetically modified quercetin, 3'-O-(3-chloropivaloyl) quercetin (CPQ), is assumed to possess better biological availability and enhanced antioxidant properties. In the present study, antineuroinflammatory capability of the novel compound CPQ was assessed in BV-2 microglial cells. Our data show that treatment with CPQ attenuated the production of the inflammatory mediators, nitric oxide (NO) and tumour necrosis factor-α (TNF-α), in LPS-stimulated microglia somewhat more efficiently than did quercetin (p > 0.05 for CPQ vs. quercetin-treated group). Also, protein level of inducible NO synthase (iNOS) in LPS-activated BV-2 microglia was to some extent more effectively supressed by CPQ than by unmodified flavonoid. In consistence with the extent of their effects on pro-inflammatory markers, CPQ and quercetin showed down-regulation of NFκB activation. This quercetin analogue caused also a decline in BV-2 microglia proliferation with interfering with cell cycle progression (p < 0.001 for CPQ vs. quercetin-treated group). However, CPQ did not remarkably affect cell viability. In addition, CPQ showed a minor better suppression of PMA-induced generation of superoxide than did quercetin. Neither CPQ nor quercetin influenced phagocytosis of BV-2 cells. These results point to the therapeutic potential of 3'-O-(3-chloropivaloyl)quercetin (CPQ) as a novel antiinflammatory drug in neurodegenerative diseases, mediating favourable modulation of pro-inflammatory functions of microglia.

Acidotropic properties of synthetic hexahydropyridoindole antioxidants.

In acidic intracellular organelles, sequestration via a proton-trapping mechanism is observed for many amine-containing drugs. It may be related to several adverse effects of a drug, yet accumulation of amines bearing antioxidant functionality may provide efficient protection of these compartments. In the present study, a possible proton-trapping mechanism of the novel antioxidant reference stobadine (STO) and its selected derivatives was investigated also with regard to their antioxidant properties, using BV-2 microglia. Unlike its 2-ethoxycarbonyl-8-methoxy derivative EC-STO (pKa1 4.95, pKa2 -3.58), STO, bearing weakly basic piperidine moiety (pKa2 9.03), induced vacuolar response in the cells. EC-STO, compared to STO, failed to provide better protection against oxidative damage induced by tert-butyl hydroperoxide (BHP), and that in spite of its predicted improved bioavailability and antioxidant properties. However, disruption of the lysosomal proton gradient abolished the efficacy of STO in suppressing oxidants generation and injury of the cells. NT-STO, the 6-nitro derivative of stobadine, lacking antiradical efficacy, showed a lower effect in protecting the cells against BHP. In conclusion, our study suggests that weakly basic hexahydropyridoindoles may act as lysosomotropic compounds. Furthermore, their weakly basic characteristics may contribute to their improved efficacy in suppressing peroxidative processes within lysosomes, and thus possibly combating ageing-related pathologies.

Protection or cytotoxicity mediated by a novel quinonoid-polyphenol compound?

Many natural and synthetic quinones and naphthoquinones possess a variety of beneficial pharmacological properties. In plants, the cytotoxic properties of quinones serve in their defensive roles against invading bacteria, fungi and parasites. In this regard many quinones as well as polyphenols, exerting generally toxicity at high dosages, are able to induce favorable hormetic responses at a low dosage. The novel chloronaphthoquinone derivative of quercetin (CHNQ) showed a profound cytotoxicity followed by enhancement of intracellular generation of oxidants in human neonatal B-HNF-3 fibroblasts. Its synthetic precursors, quercetin and 2-chloro-3-hydroxy-[1,4]naphthoquinone, failed to induce these effects, and paradoxically, only CHNQ at a low concentration provided partial protection of the cells against oxidative challenge. Thus, the novel quinonoid-polyphenol CHNQ might have a merit in the search for new prospective agents in prevention and management of ageing and ageing-related pathologies.

Olive leaf extracts protect cardiomyocytes against 4-hydroxynonenal-induced toxicity in vitro: comparison with oleuropein, hydroxytyrosol, and quercetin.

Olive (Olea europaea) leaf, an important traditional herbal medicine, displays cardioprotection that may be related to the cellular redox modulating effects of its polyphenolic constituents. This study was undertaken to investigate the protective effect of the ethanolic and methanolic extracts of olive leaves compared to the effects of oleuropein, hydroxytyrosol, and quercetin as a positive standard in a carbonyl compound (4-hydroxynonenal)-induced model of oxidative damage to rat cardiomyocytes (H9c2). Cell viability was detected by the MTT assay; reactive oxygen species production was assessed by the 2',7'-dichlorodihydrofluorescein diacetate method, and the mitochondrial membrane potential was determined using a JC-1 dye kit. Phospho-Hsp27 (Ser82), phospho-MAPKAPK-2 (Thr334), phospho-c-Jun (Ser73), cleaved-caspase-3 (cl-CASP3) (Asp175), and phospho-SAPK/JNK (Thr183/Tyr185) were measured by Western blotting. The ethanolic and methanolic extracts of olive leaves inhibited 4-hydroxynonenal-induced apoptosis, characterized by increased reactive oxygen species production, impaired viability (LD50: 25 µM), mitochondrial dysfunction, and activation of pro-apoptotic cl-CASP3. The ethanolic and methanolic extracts of olive leaves also inhibited 4-hydroxynonenal-induced phosphorylation of stress-activated transcription factors, and the effects of extracts on p-SAPK/JNK, p-Hsp27, and p-MAPKAPK-2 were found to be concentration-dependent and comparable with oleuropein, hydroxytyrosol, and quercetin. While the methanolic extract downregulated 4-hydroxynonenal-induced p-MAPKAPK-2 and p-c-Jun more than the ethanolic extract, it exerted a less inhibitory effect than the ethanolic extract on 4-hydroxynonenal-induced p-SAPK/JNK and p-Hsp27. cl-CASP3 and p-Hsp27 were attenuated, especially by quercetin. Experiments showed a predominant reactive oxygen species inhibitory and mitochondrial protecting ability at a concentration of 1-10 µg/mL of each extract, oleuropein, hydroxytyrosol, and quercetin. The ethanolic extract of olive leaves, which contains larger amounts of oleuropein, hydroxytyrosol, verbascoside, luteolin, and quercetin (by HPLC) than the methanolic one, has more protecting ability on cardiomyocyte viability than the methanolic extract or each phenolic compound against 4-hydroxynonenal-induced carbonyl stress and toxicity.

Pomegranate Seed Oil Modulates Functions and Survival of BV-2 Microglial Cells in vitro.

Current evidence has demonstrated the immunomodulatory efficacy of omega-3 polyunsaturated fatty acids (PUFAs) in glial cells, suggesting their therapeutic potential for diseases in the central nervous system (CNS). However, conjugated omega-5 PUFAs have also attracted considerable attention because of their suggested anti-inflammatory effects. In the present study, the effect of pomegranate (Punica granatum L.) seed oil (PSEO) (a rich source of omega-5 PUFAs) on the activation of cultured BV-2 microglia was investigated within a 24-hour incubation period. PSEO (25 µg/ml) showed only a slightly smaller inhibitory effect on LPS-stimulated NO production (243 ± 12.5 % of control, p<0.001 vs. 437 ± 9.2 % in stimulated cells) and TNF-α release (87.1 ± 5.62 pg/ml vs. 229 ± 24.4 pg/ml in stimulated cells), as well as iNOS expression (7.36-fold of control, p < 0.01, vs. 17.5-fold increase in stimulated cells) compared to a standardized omega-3 PUFAs mixture (25 µg/ml) and the flavonoid quercetin (25 µmol/l). Unlike quercetin and stobadine, only the PUFA preparations effectively prevented apoptosis of microglia (as confirmed by the suppression of caspase 3 activation) exposed to the toxic concentration of LPS. The PUFA preparations did not provide a notable suppression of the intracellular oxidant generation and did not influence the intracellular distribution of cholesterol (as confirmed by filipin staining). However, they appeared to affect the morphology of activated cells. In conclusion, our data point to the first evidence of immunomodulation and cytoprotection of BV-2 microglia by the pomegranate seed oil, indicating that it may be (comparably to omega-3 PUFAs) efficient against microglia-mediated neuroinflammation while preventing the premature depletion of these immune effector cells in the brain.

Can semi-synthetic flavonoids return old microglia to their youthful state?

A number of studies have indicated that brain inflammation may deteriorate during normal aging and that neuroinflammation is amplified in age-related neurodegenerative diseases. A pivotal role in age-related neuroinflammatory pathologies is attributed to amplified and prolonged activation of microglia. In addition, microglia from the aged brain were reported as senescent displaying many functional impairments. Flavonoids were shown to be promising molecules in modulation of neuroinflammation. Quercetin, a naturally occurring flavonoid, was proven to downregulate inflammatory genes in microglia. Synthetically modified quercetin, 3´-O-(3-chloropivaloyl)quercetin (CPQ), is assumed to posses better biological availability and enhanced antioxidant properties. In the present study, the antineuroinflammatory capacity of CPQ was assessed in BV-2 microglial cells and rat primary microglia. CPQ suppressed more efficiently than its precursor quercetin LPS-induced NO production and iNOS protein expression. However, neither of the compounds tested influenced significantly phagocytosis of BV-2 cells. In addition, CPQ showed a somewhat better suppression of PMA-induced generation of superoxide than did quercetin. Unlike quercetin, CPQ caused a decline in BV-2 microglia proliferation (without any impact on cell viability) along with interference with cell cycle progression. Both compounds tested at 10uM concentration notably enhanced viability of microglia-enriched cultures prepared from 22-month-old rat brains. This was followed by suppression of lipofuscin-like autofluorescence, improvement of lysosomal function and protection of mitochondria in the old microglia. These results can highlight the therapeutic potential of CPQ as a novel antiinflammatory drug in neurodegenerative diseases. In addition, our data suggest that both natural and semisynthetic flavonoids might protect functions of old microglia [VEGA2/0031/12,1/0076/13;APVV-0052-10;ITMS26240220040].