Forskolin promotes vasculogenic mimicry and invasion via Notch­1­activated epithelial­to­mesenchymal transition in syncytiolization of trophoblast cells in choriocarcinoma.

Choriocarcinoma (CC) is characterized by earlier blood metastasis compared with other female genital tumors and a high incidence of massive hemorrhage. Vasculogenic mimicry (VM) is highly associated with metastasis, and syncytiotrophoblast is involved in the formation of VM in CC. Forskolin is a typical activator of the cAMP pathway, which is involved in the syncytiolization of trophoblastic cells. In the present study, to determine the effects and mechanism of forskolin on cell invasion and VM during syncytiolization in vitro and in vivo, JEG­3 and JAR cell lines were treated with 100 µM forskolin for 48 h, and wound healing and invasion assays were used to verify cell migratory and invasive capacities. A 3D culture and tube formation assays were established to detect VM. Variation of morphology and markers of the epithelial­to­mesenchymal transition (EMT) were assessed, and the role of the Notch signaling pathway was investigated in CC cells treated with forskolin. The results of the present study demonstrated that 100 µM forskolin induced syncytiolization of trophoblastic cells and enhanced the migratory and invasive abilities of JEG­3 and JAR cell lines. In addition, the capacity of VM was significantly increased, whereas tube formation ability was decreased by forskolin in vitro and in vivo compared with the respective control groups. The cellular morphology exhibited EMT during the syncytiolization process, which was further supported by the changes in EMT marker expression, including downregulation of E­cadherin and cytokeratin and upregulation of N­cadherin, vimentin and zinc finger E­box­binding homeobox 1. The Notch­1 signaling pathway was activated to induce EMT in forskolin­induced VM process in CC cells, and VM and EMT could be reversed by using the γ­secretase inhibitor DAPT to block the Notch­1 pathway. Overall, the results of the present study demonstrated that forskolin enhanced the capacity of VM formation and metastasis through Notch­1­activated EMT in the syncytiolization of trophoblastic cells.

Chitosan coated PLGA nanoparticles amplify the ocular hypotensive effect of forskolin: Statistical design, characterization and in vivo studies.

PURPOSE: Enhancing the ocular hypotensive effect of forskolin (FK) by means of biodegradable chitosan (CS) coated poly lactic-co-glycolic acid (PLGA) nanoparticles (NP's). METHODS: One step emulsion-sonication process was employed for the formulation of CS-PLGA NP's with optimization being carried out by employing a four factor four level Box Behnken Design. The physical and spectral characterization, drug release, permeation, confocal and ocular tolerance studies (ex-vivo &in vivo) were performed. The corneal retention was assessed by gamma scintigraphic analysis and dexamethasone induced glaucamotous rabbit's intraocular pressure (IOP) was measured by means of Schiotz tonometer. RESULTS AND DISCUSSION: Particle size of optimized CS-PLGA NP's was found as 201.56 ±â€¯10.92 nm with a good PDI and positive zeta potential value. Entrapment efficiency and drug loading were found to be 72.32 ±â€¯1.12% and 28.39 ±â€¯1.67% respectively. Spectral characterization confirmed the purity and encapsulation of the drug within polymeric system. Sustained drug release and enhanced permeation profile was observed with maximum depth penetration. Ocular tolerance studies explicated its safe use. Scintigraphy studies indicated longer retention of CS-PLGA NP's while increased effectiveness after single instillation in reducing the intraocular pressure was observed. CONCLUSION: CS-PLGA-NP's could be successfully formulated and are an excellent vehicle for FK in ocular delivery.

Forskolin ameliorates mancozeb-induced testicular and epididymal toxicity in Wistar rats by reducing oxidative toxicity and by stimulating steroidogenesis.

In the present study, we have tested the beneficial effects of forskolin in protecting the mancozeb-induced reproductive toxicity in rats. Adult male Wistar rats were exposed to either mancozeb (500 mg/kg body weight/day) or forskolin (5 mg/kg body weight/day) or both for 65 days and analyzed for spermatogenesis and steroidogenesis and testicular and epididymal oxidative toxicity. A significant decrease in daily sperm production, epididymal sperm count, motile, viable, and hypo-osmotic swelling-tail swelled sperm was observed in mancozeb-treated rats. The activity levels of testicular 3ß-hydroxysteroid dehydrogenase and 17ß-hydroxysteroid dehydrogenase and circulatory testosterone levels were significantly decreased in mancozeb-treated rats. Exposure to mancozeb resulted in a significant decrease in glutathione levels and superoxide dismutase and catalase activity levels with an increase in lipid peroxidation levels in the testes and epididymis. Coadministration of forskolin mitigated the mancozeb-induced oxidative toxicity and suppressed steroidogenesis and spermatogenesis.

cAMP level modulates scleral collagen remodeling, a critical step in the development of myopia.

The development of myopia is associated with decreased ocular scleral collagen synthesis in humans and animal models. Collagen synthesis is, in part, under the influence of cyclic adenosine monophosphate (cAMP). We investigated the associations between cAMP, myopia development in guinea pigs, and collagen synthesis by human scleral fibroblasts (HSFs). Form-deprived myopia (FDM) was induced by unilateral masking of guinea pig eyes. Scleral cAMP levels increased selectively in the FDM eyes and returned to normal levels after unmasking and recovery. Unilateral subconjunctival treatment with the adenylyl cyclase (AC) activator forskolin resulted in a myopic shift accompanied by reduced collagen mRNA levels, but it did not affect retinal electroretinograms. The AC inhibitor SQ22536 attenuated the progression of FDM. Moreover, forskolin inhibited collagen mRNA levels and collagen secretion by HSFs. The inhibition was reversed by SQ22536. These results demonstrate a critical role of cAMP in control of myopia development. Selective regulation of cAMP to control scleral collagen synthesis may be a novel therapeutic strategy for preventing and treating myopia.

Dietary Coleus forskohlii extract generates dose-related hepatotoxicity in mice.

Coleus forskohlii root extract (CFE) represented by its bioactive constituent 'forskolin' is popularly used as a natural weight-lowering product, but the association of its use with liver-related risks is very limited. In the present study, the effect of standardized CFE with 10% forskolin on liver function of mice was examined. Mice were given 0-5% CFE in an AIN93G-based diet for 3-5 weeks. Food intake, body weights, relative organ weights and liver marker enzymes [aspartate aminotransferase (AST), alanine aminotransferase (ALT), and alkaline phosphatase (ALP)] combined with histophatological analysis were assessed. CFE (0-0.5%) only had minimal effects on food intake and body weight whereas a significant difference was observed in mice receiving the highest dose (5% CFE). The extract 0.05-5% dose-dependently decreased visceral fat weight by between 16% and 63%, and a dose-dependent several folds increase was observed in liver weights and plasma AST, ALT and ALP activities with quick onset apparent after only 1 week of 0.5% CFE intake. The hepatic effect persisted throughout the 3-weeks course but was restored towards normalization within 1 week after withdrawal of treatment. Liver histology of mice fed 0.5% CFE for 3 weeks showed hepatocyte hypertrophy and fat deposition. In contrast, none of the hepatic responses measured were altered when mice were given a diet containing pure forskolin alone at the dose corresponding to its content in 0.5% CFE. The present study clearly indicated that forskolin was not involved in the CFE-induced hepatotoxicity and was caused by other unidentified constituents in CFE which warrants further studies.

Reactive oxygen species facilitate translocation of hormone sensitive lipase to the lipid droplet during lipolysis in human differentiated adipocytes.

In obesity, there is an increase in reactive oxygen species (ROS) within adipose tissue caused by increases in inflammation and overnutrition. Hormone sensitive lipase (HSL) is part of the canonical lipolytic pathway and critical for complete lipolysis. This study hypothesizes that ROS is a signal that integrates regulation of lipolysis by targeting HSL. Experiments were performed with human differentiated adipocytes from the subcutaneous depot. Antioxidants were employed as a tool to decrease ROS, and it was found that scavenging ROS with diphenyliodonium, N-acetyl cysteine, or resveratrol decreased lipolysis in adipocytes. HSL phosphorylation of a key serine residue, Ser552, as well as translocation of this enzyme from the cytosol to the lipid droplet upon lipolytic stimulation were both abrogated by scavenging ROS. The phosphorylation status of other serine residues on HSL were not affected. These findings are significant because they document that ROS contributes to the physiological regulation of lipolysis via an effect on translocation. Such regulation could be useful in developing new obesity therapies.

Metformin counters both lipolytic/inflammatory agents-decreased hormone sensitive lipase phosphorylation at Ser-554 and -induced lipolysis in human adipocytes.

OBJECTIVE: To study the effects of metformin on lipolysis and hormone sensitive lipase (HSL) phosphorylation in human adipocytes treated with lipolytic and inflammatory agents. METHODS: Lipolysis and phosphorylation status of HSL were assessed in subcutaneous pre-adipocytes surgically isolated from patients and differentiated into mature adipocytes in vitro. RESULTS: Stimulation for 1 h with forskolin, isoproterenol and IBMX or stimulation for 24 h with LPS, IL-1ß and TNF-α increased lipolysis (p < 0.05 vs. basal). The phosphorylation of HSL at Ser-554 was decreased while the Ser-552 phosphorylation was increased. Pre-incubation with metformin (24 h, 1 mM) inhibited forskolin-, isoproterenol-, IBMX-, LPS-, IL-1ß- and TNF-α-induced glycerol release and prevented p(Ser554)HSL decrease and p(Ser-552)HSL increase due to lipolytic and inflammatory agents. AMPKα1 is involved in metformin-induced HSL phosphorylation at Ser-552. CONCLUSION: Phosphorylation of HSL at Ser-554 inversely correlates with lipolysis and HSL phosphorylation at Ser552 in human adipocytes.

Prolonged treatment of fair-skinned mice with topical forskolin causes persistent tanning and UV protection.

We previously reported that topical application of forskolin to the skin of fair-skinned MC1R-defective mice with epidermal melanocytes resulted in accumulation of eumelanin in the epidermis and was highly protective against UV-mediated cutaneous injury. In this report, we describe the long-term effects of chronic topical forskolin treatment in this animal model. Forskolin-induced eumelanin production persisted through 3 months of daily applications, and forskolin-induced eumelanin remained protective against UV damage as assessed by minimal erythematous dose (MED). No obvious toxic changes were noted in the skin or overall health of animals exposed to prolonged forskolin therapy. Body weights were maintained throughout the course of topical forskolin application. Topical application of forskolin was associated with an increase in the number of melanocytes in the epidermis and thickening of the epidermis due, at least in part, to an accumulation of nucleated keratinocytes. Together, these data suggest in this animal model, short-term topical regular application of forskolin promotes eumelanin induction and that over time, topical forskolin treatment is associated with persistent melanization, epidermal cell accumulation, and skin thickening.

Antiinflammatory effects of colforsin daropate hydrochloride, a novel water-soluble forskolin derivative.

BACKGROUND: To evaluate the effects of colforsin daropate hydrochloride (colforsin), a water-soluble forskolin derivative, on hemodynamics and systemic inflammatory response after cardiopulmonary bypass, we conducted a prospective randomized study. METHODS: Twenty-nine patients undergoing coronary artery bypass grafting were randomized to receive either colforsin treatment (colforsin; n = 14) or no colforsin treatment (control; n = 15). Administration of colforsin (0.5 microg.kg(-1).min(-1)) was started after induction of anesthesia and was continued for 6 hours. Perioperative cytokine and cyclic adenosine monophosphate levels, hemodynamics, and respiratory function were measured serially. RESULTS: Marked positive inotropic and vasodilatory effects were observed in patients receiving colforsin. Interleukin 1beta, interleukin 6, and interleukin 8 levels after cardiopulmonary bypass were significantly (p < 0.05) lower in the colforsin group. Plasma levels of cyclic adenosine monophosphate increased significantly (p < 0.05) in the colforsin group, and the levels correlated inversely (r = -0.56, p = 0.002) with the respiratory index after cardiopulmonary bypass. CONCLUSIONS: Intraoperative administration of colforsin daropate hydrochloride had potent inotropic and vasodilatory activity and attenuated cytokine production and respiratory dysfunction after cardiopulmonary bypass. The results indicate that the technique can be a novel therapeutic strategy for the systemic inflammatory response associated with cardiopulmonary bypass.

Central venulitis in pediatric liver allografts.

Central venulitis (CV), a distinct histologic lesion described in adult liver transplants, can occur with acute portal tract rejection or in isolation (ICV). Possible etiologies include immunosuppressive drug toxicity, acute cellular rejection, viral hepatitis, ischemic injury, and recurrent disease. This study was designed to characterize ICV and to assess its potential etiology in pediatric liver recipients because this population generally does not develop recurrent disease or viral hepatitis. All posttransplantation liver biopsy specimens that were obtained from children who received liver allografts over a 4-year period were reviewed. ICV was identified in 12 of 127 posttransplantation biopsies and in 7 of 45 allograft recipients. Only 4 liver transplantations were performed for potentially recurrent diseases (primary sclerosing cholangitis). ICV first appeared in posttransplantation biopsy specimens significantly later than did portal rejection alone. The finding of CV was not significantly correlated with elevation of Tacrolimus levels, reason for transplantation, donor/recipient cytomegalovirus (CMV) status or blood type, cold ischemic times, or the incidence of outflow obstruction. The responses of CV to therapy were variable and, although the majority of cases resolved, several episodes persisted or recurred. In conclusion, ICV occurs in 16% of pediatric liver allograft recipients and does not appear to be related to recurrent disease, viral hepatitis, drug toxicity, or graft ischemia. CV may be a variant of acute rejection, but longer follow-up is required to determine the most adequate therapy for this entity.