In vitro response of goldfish (Carassius auratus L.) dermal melanophores to cyclic 3',5'-nucleotides, nucleoside 5'-phosphates and methylxanthines

cAMP, dbcAMP, cCMP, cGMP, theophylline and caffeine caused reversible melanosome dispersion within 5 minutes at 10 mM in the dermal melanophores of the black goldfish, Carassius auratus L. cTMP, cUMP, 5′-AMP, 5′-CMP, 5′-GMP, 5′-TMP, and 5′-UMP did not produce melanosome dispersion or aggregation in this melanophore system. cAMP was the most effective nucleotide in the induction of melanosome dispersion; at 10 mM, cGMP and at 5 mM, dbcAMP were the least effective of those nucleotides inducing melanosome dispersion. At the 10 mM level dbcAMP required 30 minutes to evoke the same degree of melanosome dispersion as 5 minutes cAMP treatment. Theophylline was more effective than caffeine in eliciting melanosome dispersion. At 1 mM, theophylline and caffeine first induced melanosome dispersion which was followed by aggregation in the course of the 30 minute test period. These reactions suggest both a high melanophore phosphodiesterase activity and competitive inhibition of phosphodiesterase by theophylline and caffeine. Induction of melanosome dispersion by several cyclic 3′,5′-nucleotides suggest multi-nucleotide control of melanosome dispersion. These findings also support a proposed mechanism of prostaglandin induced melanosome dispersion as well as the “second messenger” hypothesis.     

In vitro neurotransmitter release in an animal model of depression.

Sprague-Dawley rats exposed to uncontrollable shock can be separated by a subsequent shock escape test into two groups: a "helpless" (LH) group which demonstrates a deficit in escape behavior, and a "nonlearned helpless" (NLH) group which shows no escape deficit and acquires the escape response as readily as naive control rats (NC) do. The present studies were designed to examine the correlations between the behavioral differences and the changes of in vitro neurotransmitter release seen in these three groups of rats. The major finding concerned a significant increase in endogenous and K(+)-stimulated serotonin (5-HT) release in the hippocampal slices of LH rats. There were no apparent differences in acetylcholine, dopamine and noradrenaline release in the hippocampus of LH rats as compared to NLH and NC rats. These results add further support to previous studies in our laboratory which implicate presynaptic 5-HT mechanisms in the behavioral deficit caused by uncontrollable shock.     

Proliferation in vitro of melanophores from Xenopus laevis

Melanophores of wild-type and periodic albino mutants of Xenopus laevis were successfully cultured in vitro. They proliferated in the presence of alpha-melanocyte-stimulating hormone (alpha-MSH or cyclic adenosine monophosphate (cAMP) at a doubling time of 8-10 days. These proliferating melanophores retained their phenotypes, ability to synthesize melanin, and melanin-dispersing response to MSH stimulation. Neither depigmentation nor selective cell death of periodic albino melanophores was observed for at least 4 months during the cultivation.     

Multiscale trend analysis of microtubule transport in melanophores

Microtubule-based transport is critical for trafficking of organelles, organization of endomembranes, and mitosis. The driving force for microtubule-based transport is provided by microtubule motors, which move organelles specifically to the plus or minus ends of the microtubules. Motor proteins of opposite polarities are bound to the surface of the same cargo organelle. Transport of organelles along microtubules is discontinuous and involves transitions between movements to plus or minus ends or pauses. Parameters of the movement, such as velocity and length of runs, provide important information about the activity of microtubule motors, but measurement of these parameters is difficult and requires a sophisticated decomposition of the organelle movement trajectories into directional runs and pauses. The existing algorithms are based on establishing threshold values for the length and duration of runs and thus do not allow to distinguish between slow runs and pauses, making the analysis of the organelle transport incomplete. Here we describe a novel algorithm based on multiscale trend analysis for the decomposition of organelle trajectories into plus- or minus-end runs, and pauses. This algorithm is self-adapted to the characteristic durations and velocities of runs, and allows reliable separation of pauses from runs. We apply the proposed algorithm to compare regulation of microtubule transport in fish and Xenopus melanophores and show that the general mechanisms of regulation are similar in the two pigment cell types.     

In vitro gene transfer using human papillomavirus-like particles.

Recombinant papillomavirus-like particles have recently been shown to be highly effective for the prevention of papillomavirus infections and associated tumors, and a virus-like particle-based vaccine against the most prevalent HPV causing genital infection in humans will be developed in the near future. Another use of these virus-like particles may lie in gene therapy and DNA immunization. We report here that human papillomavirus-like particles composed of the major capsid protein (L1) of HPV-16 are able to package unrelated plasmid DNA in vitro and then to deliver this foreign DNA to eukaryotic cells with the subsequent expression of the encoded gene. The results indicate higher gene transfer than with DNA alone or with liposome. Virus-like particles are a very promising vehicle for delivering genetic material into target cells. Moreover, the preparation of the gene transfer vehicle is relatively easy.     

In vitro DNA methylation inhibits gene expression in transgenic tobacco.

A hemimethylated chimeric gene, containing the cauliflower mosaic virus 35S promoter, the beta-glucuronidase coding region and the polyadenylation signal of nopaline synthase, was introduced into tobacco protoplasts by polyethylene glycol mediated transfection. Hemimethylation led to complete inhibition of transient gene expression. In regenerated transgenic plants the integrated gene was constitutively hypermethylated at the sequences CpG and CpNpG and this was correlated with an inactivation of beta-glucuronidase in 12 out of 18 analyzed plant lines whereas two showed slight and four strong activity. From 10 control lines transformed with nonmethylated DNA, only two were inactive; three showed slight and five strong activity. 5-aza-cytidine treatment of plant tissue from 'hypermethylated' lines led to induction of beta-glucuronidase in most cases. Shoots regenerated from azaC treated calli revealed stable enzyme restoration and demethylation of the integrated transgene.     

In vitro depression of cellular immunity by Friend virus leukemic spleen cells.

Four distinct sublines of mouse L 929 cells (termed alpha, beta, gamma, and delta) were derived and shown to differ markedly in their in vitro sensitivity to human lymphotoxin (LT). The alpha L cell is most sensitive and is rapidly destroyed by very low dilutions of LT. This cell is 100 times more sensitive to LT than the most resistant (delta) L cell. The highly lymphotoxin-sensitive alpha cell makes it possible to reproducibly detect LT activity in as little as 0.0005 ml of supernatant medium. Additional studies revealed a direct correlation between the sensitivities of the four L cell sublines to LT and to direct cytolysis mediated by mitogen-stimulated human lymphocytes. The alpha, beta, gamma, and delta L cells were shown to be equally sensitive to antibody-mediated complement-dependent lysis, indicating that the sequence of sensitivities of these L cell sublines to the direct lymphocyte and to LT does not merely reflect a general susceptibility to cell destruction. These results lend further support to the view that lymphotoxin is an important mediator of in vitro target cell destruction by human effector lymphocytes.     

In vitro induction of tyrosinase activity in goldfish (Carassius auratus L.) integument by ACTH and dibutyryl-cAMP.

Tyrosinase was first detected in melanoblasts by the DOPA-oxidase reaction in the presence of catalase in explants of goldfish integument after 12 hr culture with either ACTH (1IU/ml) or DB-cAMP (0.1mM). Melanin did not appear in the new melanocytes until 24 hr. The data indicate that the release of cAMP within the melanoblast in response to ACTH treatment is rapid and the tyrosinase in the melanoblast is released from inhibition and/or activated at least 12 hr prior to melanization of premelanosomes.     

In vitro and in vivo effects of ghrelin on luteinizing hormone and growth hormone release in goldfish

We studied the in vitro and in vivo effects of octanoylated goldfish ghrelin peptides (gGRL-19 and gGRL-12) on luteinizing hormone (LH) and growth hormone (GH) release in goldfish. gGRL-19 and gGRL-12 at picomolar doses stimulated LH and GH release from dispersed goldfish pituitary cells in perifusion and static incubation. Incubation of pituitary cells for 2 h with 10 nM gGRL-12 and 1 or 10 nM gGRL-19 increased LH-beta mRNA expression, whereas only 10 nM gGRL-19 increased GH mRNA expression. Somatostatin-14 abolished the stimulatory effects of ghrelin on GH release from dispersed pituitary cells in perifusion and static culture. The GH secretagogue receptor antagonist d-Lys(3)-GHRP-6 inhibited the ghrelin-induced LH release, whereas no effects were found on stimulation of GH release by ghrelin. Intracerebroventricular injection of 1 ng/g body wt of gGRL-19 or intraperitoneal injection of 100 ng/g body wt of gGRL-19 increased serum LH levels at 60 min after injection, whereas significant increases in GH levels were found at 15 and 30 min after these treatments. Our results indicate that, in addition to its potent stimulatory actions on GH release, goldfish ghrelin peptides have the novel function of stimulating LH release in goldfish.     

Fibronectin-induced migration of melanophores in vitro in scales of medaka,Oryzias latipes

Summary The effects of fibronectin on melanophores were examined in two mutant strains of medaka, Oryzias latipes: mm (BmmR), which has condensed melanophores and normal dendritic melanophores; and cm (BcmR), which has condensed melanophores. When medaka scales were cultured in the presence of fibronectin, melanophores of the wild type and dendritic melanophores of the mm mutant changed their shape and migrated, whereas melanophore migration was rarely seen in the absence of fibronectin. Melanophores of the cm mutant and condensed melanophores of the mm mutant did not migrate even in the presence of fibronectin. When melanophores of the wild type and mm mutant were condensed by adrenalin, they did not migrate. On the other hand, when melanophores of the cm mutant were dispersed by theophylline, they were able to migrate. These results indicate that fibronectin induces the migration of melanophores and that dispersion of melanin granules may be requisite for such migration.     

In vitro gene transfer with a novel galactosylated spermine bolaamphiphile.

We describe the synthesis of a alpha-galacto-omega-spermine bolaamphiphile (GalSper) and report on the gene transfer mediated with lipoplexes it forms either when used alone or in conjunction with DOPE or with DOGS (Transfectam). Lipofection with GalSper was investigated with human HepG2 or murine BNL-CL2 hepatocytes expressing the asialo-glycoprotein (ASGP) receptor, which displays a high affinity for galactosyl residues, or with A549 cells which do not express ASGP. Although lower luciferase expression levels in BNL-CL2 and in HepG2 cells were obtained with GalSper/DOPE N/P 2.5 lipoplexes as compared with control DOGS/DOPE N/P 2.5 particles or with the more positively charged N/P 5 particles (yet through a different mechanism), specific receptor-mediated endocytosis of DNA can be achieved with this targeted cationic GalSper bolaamphiphile presenting a single galactose residue. The present work suggests that GalSper-based DNA formulations appear as promising synthetic vectors for specific gene delivery to ASGP(+) cells.     

In vitro gene therapy of mucopolysaccharidosis type I by lentiviral vectors.

Mucopolysaccharidosis type I (MPS I) results from a deficiency in the enzyme alpha-L-iduronidase (IDUA), and is characterized by skeletal abnormalities, hepatosplenomegaly and neurological dysfunction. In this study, we used a late generation lentiviral vector to evaluate the utility of this vector system for the transfer and expression of the human IDUA cDNA in MPS I fibroblasts. We observed that the level of enzyme expression in transduced cells was 1.5-fold the level found in normal cells; the expression persisted for at least two months. In addition, transduced MPS I fibroblasts were capable of clearing intracellular radiolabeled glycosaminoglycan (GAG). Pulse-chase experiments on transduced fibroblasts showed that the recombinant enzyme was synthesized as a 76-kDa precursor form and processed to a 66-kDa mature form; it was released from transduced cells and was endocytosed into a second population of untreated MPS I fibroblasts via a mannose 6-phosphate receptor. These results suggest that the lentiviral vector may be used for the delivery and expression of the IDUA gene to cells in vivo for treatment of MPS I.