Chlorogenic acid and its metabolite m-coumaric acid evoke neurite outgrowth in hippocampal neuronal cells

We evaluated the neurotrophic activity of dietary polyphenols by using primary cultures of fetal rat hippocampal neurons in a serum-free medium. Among the tested compounds, chlorogenic acid and its metabolite, m-coumaric acid, together with catechins and flavanone, were found to promote neuronal differentiation comparable to the phytochemical, honokiol, which has been reported to show potent neurotrophic activity. The present findings may contribute to the development of further neurotrophic studies on dietary polyphenols and their metabolites.     

Okaramine A,a Novel Indole Alkaloid with Insecticidal Activity,from Penicillium simplicissimum AK-40

We evaluated the neurotrophic activity of dietary polyphenols by using primary cultures of fetal rat hippocampal neurons in a serum-free medium. Among the tested compounds, chlorogenic acid and its metabolite, m-coumaric acid, together with catechins and flavanone, were found to promote neuronal differentiation comparable to the phytochemical, honokiol, which has been reported to show potent neurotrophic activity. The present findings may contribute to the development of further neurotrophic studies on dietary polyphenols and their metabolites.     

Efficient synthesis and structure-activity relationship of honokiol, a neurotrophic biphenyl-type neolignan

Honokiol, a biphenyl-type neolignan, which shows the remarkable neurotrophic effect in primary cultured rat cortical neurons, has been effectively synthesized in 21% yield over 14 steps starting from 5-bromosalicylic acid and p-hydroxybenzoic acid by utilizing Pd-catalyzed Suzuki-Miyaura coupling reaction as a key step. Additionally, the structure-activity relationship between neurite outgrowth-promoting activity and its O-methylated and/or its hydrogenated analogues was examined in the primary cultures of fetal rat cortical neurons, suggesting that 5-allyl and 4'-hydroxyl groups are essential for affecting the neurotrophic activity of honokiol.     

Cytokine Regulation of Nerve Growth Factor-Mediated Cholinergic Neurotrophic Activity Synthesized by Astrocytes and Fibroblasts

The neurotrophic activity of astrocytes and fibroblasts and its regulation by various cytokines were investigated. Astrocyte conditioned medium (ACM) enhanced the survival of neurons and the proliferation of astrocytes in embryonic cortical cultures grown in serum-free defined medium. However, these results were not affected by acidic fibroblast growth factor, interleukin-1 beta (IL-1 beta), tumor necrosis factor-alpha (TNF alpha), and transforming growth factor-beta 1. In contrast, ACM induced choline acetyltransferase expression in septal cholinergic neurons via nerve growth factor (NGF)-dependent and -independent mechanisms. However, neither acidic nor basic fibroblast growth factor is involved in this biological activity in ACM. The cytokines listed above mainly stimulate NGF-mediated cholinergic neurotrophic activity in ACM. A combination of IL-1 beta and TNF alpha significantly enhanced choline acetyltransferase activity in septal neurons co-cultured with astrocytes, and this effect was found to be mediated by NGF produced by activated astrocytes. Effects of astrocytes on GABAergic neurons were also examined. ACM was found to increase glutamate decarboxylase activity in neuronal cultures from septum in the presence of Ara-C. However, the cytokines did not enhance this activity in ACM. Moreover, a combination of IL-1 beta and TNF alpha had no effect on glutamate decarboxylase activity in septal neurons co-cultured with astrocytes. In a final set of experiments, cholinergic neurotrophic activity in skin-derived fibroblast conditioned medium (FCM) was examined. FCM was found to possess biological activity similar to that of ACM on septal neurons grown in serum-free defined medium with Ara-C. The cytokines also enhanced NGF-mediated cholinergic neurotrophic activity in FCM. Astrocytes and fibroblasts were found to possess NGF-type and non-NGF-type cholinergic neurotrophic activity, and various cytokines were found to regulate the NGF-type cholinergic neurotrophic activity in both types of cells. NGF produced by astrocytes and fibroblasts that are activated by cytokines is likely to be important for development and regeneration of NGF-sensitive neurons in the central and peripheral nervous systems.     

Application of percent labeled mitoses (PLM) analysis to the investigation of melanoma cell responsiveness to MSH stimulation throughout the cell cycle

Dissociated embryonic chick dorsal root ganglionic cells were plated on collagen-coated tissue culture dishes in Eagle's basal medium containing 10% fetal calf serum (FCS). After 48 h, which allowed adequate cell attachment, the cultures were washed with serum-free medium and then received fresh medium supplemented with 10% FCS or serum-free defined medium (N1), which was supplemented with insulin, transferrin, progesterone, putrescine and selenium. In addition, both media required the addition of Nerve Growth Factor (NGF). N1 medium selectively maintained the neurons and did not support proliferation or even survival of almost all non-neuronal elements (fibroblasts and Schwann cells). Survival of neurons in N1 was initially as good and eventually better than in serum-containing medium. After 6 days in N1 the cultures consisted almost entirely of neurons (>95%), which had smaller cell bodies but more extensive process formation than in serum-supplemented medium. The omission of any one of the supplements resulted in a reduction of neuron survival. The ability to generate cultures of pure neurons in a serum-free defined medium may be useful for studying (i) the role of specific hormones and growth factors normally supplied by serum in the maintenance of neurons and (ii) biochemical parameters of neurons in the absence of the substantial background due to non-neuronal elements.     

Neurotrophic Effects of l-DOPA in Postnatal Midbrain Dopamine Neuron/Cortical Astrocyte Cocultures

Abstract: l -DOPA is toxic to catecholamine neurons in culture, but the toxicity is reduced by exposure to astrocytes. We tested the effect of l -DOPA on dopamine neurons using postnatal ventral midbrain neuron/cortical astrocyte cocultures in serum-free, glia-conditioned medium. l -DOPA (50 µ M ) protected against dopamine neuronal cell death and increased the number and branching of dopamine processes. In contrast to embryonically derived glia-free cultures, where l -DOPA is toxic, postnatal midbrain cultures did not show toxicity at 200 µ M l -DOPA. The stereoisomer d -DOPA (50–400 µ M ) was not neurotrophic. The aromatic amino acid decarboxylase inhibitor carbidopa (25 µ M ) did not block the neurotrophic effect. These data suggest that the neurotrophic effect of l -DOPA is stereospecific but independent of the production of dopamine. However, l -DOPA increased the level of glutathione. Inhibition of glutathione peroxidase by l -buthionine sulfoximine (3 µ M for 24 h) blocked the neurotrophic action of L-DOPA. N -Acetyl- l -cysteine (250 µ M for 48 h), which promotes glutathione synthesis, had a neurotrophic effect similar to that of l -DOPA. These data suggest that the neurotrophic effect of l -DOPA may be mediated, at least in part, by elevation of glutathione content.     

Neurotrophic effect of isoquinoline derivatives in primary cortical culture.

Recent studies indicate that the N-methyl-D-aspartate (NMDA) antagonist, (+)-1-methyl-1-phenyl-1,2,3,4-tetrahydroisoquinoline hydrochloride (FR 115427), enhanced neuronal survival in primary culture of cortical neurons from mouse embryos. In the present study isoquinoline derivatives were examined for the neurotrophic activity in primary culture of cortical neurons and were also examined for anti-NMDA activity. In spite of varying level of anti-NMDA activity, isoquinoline derivatives enhanced neuronal survival at the concentration of 10 microM. To elucidate of the mechanisms of neurotrophic activity in primary cortical culture, nicardipine and flunarizine, known calcium channel blockers, were also tested. Neither nicardipine nor flunarizine showed neurotrophic activity up to the doses causing toxicity in cultured neurons. NBQX, an AMPA receptor antagonist, was also tested for neurotrophic activity. However no enhancement of neuronal survival was observed. These data suggest that one of the mechanisms to promote neuronal survival may depend on the structure of isoquinoline ring. Moreover neurotrophic activity observed in our culture systems might not relate on anti-NMDA activity, blockade of voltage dependent L-type calcium channels and antagonization of AMPA receptor.     

Adult rat spinal cord culture on an organosilane surface in a novel serum-free medium

Summary In this study, we have documented by morphological analysis, immunocytochemistry, and electrophysiology, the development of a culture system that promotes the growth and long-term survival of dissociated adult rat spinal cord neurons. This system comprises a patternable, nonbiological, cell growth-promoting organosilane substrate coated on a glass surface and an empirically derived novel serum-free medium, supplemented with specific growth factors (acidic fibroblast growth factor, heparin sulfate, neurotrophin-3, brain-derived neurotrophic factor, glial-derived neurotrophic factor, cardiotrophin-1, and vitronectin). Neurons were characterized by immunoreactivity for neurofilament 150, neuron-specific enolase, Islet-1 antibodies, electrophysiology, and the cultures were maintained for 4–6 wk. This culture system could be a useful tool for the study of adult mammalian spinal neurons in a functional in vitro system.     

Studies on production of ajmalicine in shake flasks by multiple shoot cultures of Catharanthus roseus

The effects of different concentrations of indole-3-acetic acid (IAA) and benzyladenine (BA) on production of ajmalicine by multiple shoot cultures of Catharanthus roseus (C. roseus) were studied. By supplementing Murashige and Skoog's (MS) medium with a high concentration of IAA (11.42 microM) and a low concentration of BA (2.22 microM), shoot cultures accumulated high levels of ajmalicine. When culture medium was fortified with a low concentration of IAA (2.85 microM) and a high concentration of BA (8.90 microM), shoots released high levels of ajmalicine into the culture medium. Quantification of ajmalicine was performed by high performance liquid chromatography (HPLC). The highest concentration of ajmalicine production (0.166% dry wt) was obtained by shoot cultures grown in MS medium containing IAA (11.42 microM) on 20 days of cultivation. Shoot cultures accumulated ajmalicine 4.2-fold more in IAA (11.42 microM) supplemented medium compared with the high concentration of BA (8.90 microM). The content of ajmalicine concentration in the medium was quantified. Shoot cultures grown in BA (8.90 microM) supplemented medium released the maximum production of ajmalicine (0.853 g/L) into the culture medium after 15 days of cultivation. The experimental data show that the secretion of ajmalicine was 2-fold more into the culture medium supplemented with a high concentration of BA compared to that with a low concentration of BA. Data presented here show that production of ajmalicine by shoot cultures is not correlated with growth rate. Dimeric indole alkaloids vincristine and vinblastine were not present in shoot cultures. Ajmalicine production by shoot cultures was 2.4-fold higher compared to leaves of 1-year-old naturally grown plants.     

Production of haploids of neem (<Emphasis Type="Italic">Azadirachta indica</Emphasis> A. Juss.) by anther culture

Androgenic haploids of the neem tree (Azadirachta indica A. Juss.) were produced by anther culture at the early- to late-uninucleate stage of pollen. Haploid formation occurred via callusing. The best medium for inducing callusing in the anther cultures was Murashige and Skoog's basal medium (MS) (9% sucrose) supplemented with 1 microM 2,4-D, 1 microM NAA and 5 microM BAP, while anther callus multiplied best on MS medium supplemented with 1 microM 2,4-D and 10 microM Kn. These calli differentiated shoots when transferred to a medium containing BAP; 5 microM BAP was optimum for young calli (75% cultures differentiated shoots), but older calli showed the best regeneration with 7.5 microM BAP. Shoots elongated at a lower concentration of BAP-0.5 microM. These shoots were multiplied by forced axillary branching and rooted in vitro. The plants were subsequently established in soil. Of the plants that regenerated from anther callus 60% were haploid, 20% were diploid and 20% were aneuploid.     

Growth requirements and long-term subcultivation of bovine granulosa cells cultured in a serum-free medium

Summary We have developed an improved serum-free medium to optimize the cell growth of bovine granulosa cells. The cells on collagen-coated culture plates proliferated extensively in a nutrient medium supplemented with insulin, heparin binding growth factor-2 (HBGF-2), lipoprotein, and bovine serum albumin (BSA). The cell doubling time at logarithmic phase and final cell density at confluent cultures were equal to those of cultures grown in the presence of medium supplemented with optimal concentration (10%) of fetal bovine serum (FBS). Whereas HBGF-2 or insulin alone had a small mitogenic effect of granulosa cells, lipoprotein or BSA did not. When lipoprotein, BSA, or insulin was added together with HBGF-2, synergistic cell proliferation was observed in all combinations. Insulin or lipoprotein had an additive mitogenic stimulation of these cells in the presence of BSA. After granulosa cells were subcultivated in a serum-containing medium until three generations [8.5 cumulative population doubling level (CPDL)], subsequent subcultivation of the cells in a complete serum-free medium could be achieved up to six generations (14.4 CPDL). These results demonstrate that this serum-free medium can support the optimal cell growth and long-term subcultivation of bovine granulosa cells.     

Ochratoxin A decreases the activity of phosphoenolpyruvate carboxykinase and its mRNA content in primary cultures of rat kidney proximal convoluted tubule cells

The effect of ochratoxin A on the specific activities of phosphoenolpyruvate carboxykinase, gamma-glutamyl transpeptidase and phosphate-dependent glutaminase were investigated in primary cultures of rat kidney proximal convoluted tubule cells grown in a serum-free medium supplemented with growth factors. Addition of ochratoxin A (25-100 microM) to the medium caused reduction in the specific activities of phosphoenolpyruvate carboxykinase and gamma-glutamyl transpeptidase only. Addition of cAMP caused a four-fold increase in the concentration of phosphoenolpyruvate carboxykinase mRNA in tubule cells within 3 h. This cAMP-mediated increase in phosphoenolpyruvate carboxykinase mRNA content was abolished when ochratoxin A was added simultaneously.     

Huperzine A attenuates apoptosis and mitochondria-dependent caspase-3 in rat cortical neurons

The neuroprotection of huperzine A against apoptosis was investigated. In cultures of rat primary cortical neurons, neuronal apoptosis was induced by serum deprivation for 24 h, which was accompanied by enhanced caspase-3 activity and the release of cytochrome c into the cytosol from mitochondria. Pretreating the neurons for 2 h with huperzine A (0.1-10 microM) improved neuronal survival. Huperzine A at a concentration of 1 microM significantly attenuated apoptosis by inhibiting the mitochondria-caspase pathway directly and indirectly.     

Increased Intracellular γ-Aminobutyric Acid Selectively Lowers the Level of the Larger of Two Glutamate Decarboxylase Proteins in Cultured GABAergic Neurons from Rat Cerebral Cortex

The regulation of glutamate decarboxylase (GAD; EC 4.1.1.15) was studied by using cultures of cerebral cortical neurons from rat brain grown in serum-free medium. About 50% of the neurons in the cultures were gamma-aminobutyric acid (GABA)ergic as determined by two double-staining procedures. Immunoblotting experiments with four anti-GAD sera that recognize the two forms to varying degrees, demonstrated that the cultures contained the two forms of GAD that are present in rat brain (apparent molecular masses = 63 and 66 kDa). GAD activity was reduced by 60-70% when intracellular GABA levels were increased by incubating the cultures with the GABA-transaminase inhibitor gamma-vinyl-GABA for greater than 5-10 h or with 1 mM GABA itself. Neither baclofen nor muscimol (100 microM) affected GAD activity. Immunoblotting experiments showed that only the larger of the two forms of GAD (66 kDa) was decreased by elevated GABA levels. These results, together with previous results indicating that the smaller form of GAD is more strongly regulated by pyridoxal 5'-phosphate (the cofactor for GAD), suggest that the two forms of GAD are regulated by different mechanisms.     

Cellular selenoproteins and the effects of selenite on cell proliferation

The incorporation of radioactive selenium into cellular proteins and the effect of selenite on proliferation were examined in human (HeLa, HT-29, and IMR-90) and mouse (3T3 and CMT-93) cell lines. Proteins incorporating selenium were detected by one-dimensional sodium dodecyl sulfate-polyacrylamide gel electrophoresis. Major polypeptide subunits at 60, 23, 21, 19, and 16 kD were detected in the two tumorigenic and one normal human cell lines. The 23 kD polypeptide migrated to the same position on the gel as the major subunit of human erythrocyte glutathione peroxidase. In the mouse cells, the 60 kD polypeptide was almost entirely absent; four other major selenoproteins were detected, with molecular weights similar to those in the human cells. In both mouse and human cells, the same pattern of selenoproteins was observed irrespective of whether the cells were grown in medium containing 10% fetal bovine serum or in defined medium supplemented with 0.1 or 1 microM selenite, or with 1% serum. The effect of selenite on proliferation of HeLa, HT-29, and CMT-93 cells in medium supplemented with 10% fetal bovine serum and in serum-free medium was examined. At concentrations up to about 1 microM, selenite stimulated proliferation of the human cells slightly in serum-free medium but not in serum-supplemented medium. At concentrations of about 5 microM and higher selenite significantly inhibited proliferation of all cells in both types of media. In CMT-93 cells, this inhibition was greater in serum-free medium, but there were no significant differences in this regard in the human cells. These results demonstrate that selenium is stably incorporated into several polypeptides in human and mouse cells, that there are no significant differences in this regard among several cell lines, and slight differences between human and mouse cells. They further confirm that selenium can have a slight stimulatory effect on cell growth, and a much larger inhibitory effect, depending on its concentration.     

Bone morphogenetic protein-2 promotes dissociated effects on the number and differentiation of cultured ventral mesencephalic dopaminergic neurons

Bone morphogenetic proteins (BMPs) are a family of growth differentiation factors which induce bone formation from mesenchymal cells. These proteins are members of the transforming growth factor-beta super-family. The expression of BMPs in the nervous system as well as in other tissues has been reported. In this study, we show that the presence of BMP-2 resulted in a dose-dependent increase in the number of tyrosine hydroxylase-immunoreactive ventral mesencephalic cells after 7 days in serum-free medium cultures. A maximal response was elicited at 10 ng/mL. BMP-2 also increased the number of primary neurites and branch points as well as the length of the longest neurite in a dose-dependent manner, with a maximal effect at 1 ng/mL. In contrast, BMP-2 did not modify the number or the function of GABAergic neurons. On the other hand, we observed stimulation of proliferation and morphological changes in glial cells (astrocytes become more fibrous shaped) in the presence of a high BMP-2 concentration (100 ng/mL), but not with lower doses, suggesting that the neurotrophic effect in dopaminergic neurons is not mediated by astroglial cells. This is consistent with the fact that the BMP-2 effect on dopaminergic neurons was observed even when the cultures were treated with alpha-aminoadipic acid to exclude the presence of glial cells. In summary, our data indicate that BMP-2 is a potent neurotrophic factor for ventral mesencephalic dopaminergic cells in culture.     

Hippocampal and cortical neuronal growth mediated by the small molecule natural product clovanemagnolol

The use of small molecule surrogates of growth factors that directly or indirectly promote growth represents an attractive approach to regenerative medicine. With synthetic access to clovanemagnolol, a small molecule initially isolated from the bark of the Bigleaf Magnolia tree, we have examined the small molecule’s ability to promote growth of embryonic hippocampal and cortical neurons in serum-free medium. Comparisons with magnolol, a known promoter of growth, reveals that clovanmagnolol is a potent neurotrophic agent, promoting neuronal growth at concentrations of 10 nM. In addition, both clovanemagnolol and magnolol promote growth through a biphasic dose response.     

Neurotrophic and neuroprotective effects of the neuregulin glial growth factor-2 on dopaminergic neurons in rat primary midbrain cultures

Glial growth factor-2 (GGF2) and other neuregulin (NRG) isoforms have been shown to play important roles in survival, migration, and differentiation of certain neural and non-neural cells. Because midbrain dopamine (DA) cells express the NRG receptor, ErbB4, the present study examined the potential neurotrophic and/or neuroprotective effects of GGF2 on cultured primary dopaminergic neurons. Embryonic day 14 rat mesencephalic cell cultures were maintained in serum-free medium and treated with GGF2 or vehicle. The number of tyrosine hydroxylase-positive (TH+) neurons and high-affinity [3H]DA uptake were assessed at day in vitro (DIV) 9. Separate midbrain cultures were treated with 100 ng/mL GGF2 on DIV 0 and exposed to the catecholamine-specific neurotoxin 6-hydroxydopamine (6-OHDA) on DIV 4. GGF2 treatment significantly increased DA uptake, the number of TH+ neurons, and neurite outgrowth when compared to the controls in both the serum-free and the 6-OHDA-challenged cultures. Furthermore, three NRG receptors were detected in the midbrain cultures by western blot analysis. Immunostaining for glial fibrillary acidic protein revealed that GGF2 also weakly promoted mesencephalic glial proliferation in the midbrain cultures. These results indicate that GGF2 is neurotrophic and neuroprotective for developing dopaminergic neurons and suggest a role for NRGs in repair of the damaged nigrostriatal system that occurs in Parkinson's disease.     

A new serum-free medium for monoclonal antibody production

A new serum-free, defined-protein, medium for the growth of murine hybridoma cells and the production of monoclonal antibodies has been developed. Designated WRC 935 medium, this formulation supports the growth of hybridoma cells in higher numbers, and promotes better cell viabilities and increased monoclonal antibody levels compared to growth in DMEM supplemented with 10% fetal bovine serum or in a DMEM/F-12 serum-free mixture. In suspension cultures, WRC 935 medium typically promoted cell growth to densities over two million cells per milliliter. This medium also promoted the rapid growth of cells following their transfer from liquid nitrogen storage. WRC 935 medium is especially useful for high density cell culture production methods using hollow-fiber bioreactors. Hollow-fiber bioreactors using this medium produced antibody at an average rate of 11 mg/day, and the antibody concentration ranged from 10 to 40 mg/ml.     

Cell surface distribution of endogenous and effects of exogenous gangliosides on neuronal survival, cell shape and growth in vitro.

In vitro immunostaining of neurons from spinal cord or brain of embryonic chicken by means of monoclonal anti-ganglioside antibodies (Q211, D21b) revealed a fluorescence-labeling of c-polysialogangliosides and GD1b evenly distributed over the entire neuronal surface including filopodia at the growth cones. On electronmicroscopical level the gold-stained ganglioside-antigens were found more or less densely packed in small adjacent areas suggesting a concentration in local "domains". Survival in serum-free or serum-containing medium of embryonic spinal cord motoneurons, which normally died if not cultivated in muscle conditioned medium or in contact to myotubes, was remarkably improved in the presence of a ganglioside mixture (10 microM) from bovine brain. If embryonic neurons from optic lobes were cultivated at low Ca(2+)-concentration (< 20 microM) they developed flat, broad cell bodies with many filopodia and only a few flat-shaped short processes. A very weak cytoskeleton-staining by means of rhodamine-linked phalloidine indicated that polymerization of actin was impaired in these neurons. At the same low Ca(2+)-concentration of < 20 microM but in the presence of ganglioside GM1 (up to 100 microM) most of the neurons developed a "normal" cell shape with rounded perikarya and thin neurites with "normal" shaped growth cones. In this case rhodamine-linked phalloidine revealed a much more intense staining mainly concentrated within the growing tips. The morphology and growth of the ganglioside-treated neurons resembled that of neurons cultivated at a higher Ca(2+)-concentration of at least 600 microM.