Colominic acid inhibits the proliferation of cultured bovine aortic endothelial cells and injures their monolayers: cell density-dependent effects prevented by sulfation

Colominic acid (CA), produced by Escherichia coli K1, is a polymer of sialic acid linked through alpha (2-->8) glycosidic linkages. Although there are several studies on the biological activities of chemically sulfated CA, the activity of CA has been incompletely understood. In the present study, we investigated the effects of CA, prepared as an alpha2,8-linked homopolymer of N-acetylneuraminic acid, on the proliferation and monolayer maintenance of bovine aortic endothelial cells in culture. The results indicate that CA potently inhibits the proliferation of sparse endothelial cells without nonspecific cell damage. The inhibitory effect of CA was markedly stronger than those of sodium spirulan and calcium spirulan, known polysaccharides that inhibit endothelial cell proliferation. On the other hand, in dense endothelial cells, CA induced nonspecific cell damage and markedly injured the monolayer. These results indicate that CA has two distinct effects on vascular endothelial cells: one is the inhibition of proliferation when the cell density is low, and the other is the nonspecific cytotoxicity when the cell density is high. Interestingly, these cell density-dependent effects of CA could be prevented by sulfation of the CA chains. Therefore, it is concluded that CA not only inhibits the proliferation of sparse endothelial cells without nonspecific cell damage but also injures dense cells in a monolayer by nonspecific cytotoxicity, which can be prevented by sulfation of the polysaccharide.     

Design,synthesis, and biological evaluation of some novel 4-aminoquinazolines as Pan-PI3K inhibitors

A series of 4-aminoquinazolines derivatives containing hydrophilic group were designed and identified as potent Pan-PI3K inhibitors in this study. The results of antiproliferative assays in vitro showed that this series of compounds had strong inhibition of tumor growth, especially compound 7b for MCF-7 cells but weak inhibition to normal cells. PI3K kinase assay showed that 7b had high activity for three PI3K isoforms with the IC₅₀ values of picomole. The western blot assay indicated that 7b could decrease the phospho-Akt (S473) in a dose-dependent manner. Further experiments showed that 7b could induce apoptosis in MCF-7 cells. Four key hydrogen bonding interactions were found in the docking of 7b with PI3K kinase. All these results suggested that 7b is a potent PI3K inhibitor and could be considered as a potential candidate for the development of anticancer agents.     

Hyaluronan in part mediates IL-1beta-induced inflammation in mouse chondrocytes by up-regulating CD44 receptors

Interleukin-1beta (IL-1beta) elicits the expression of inflammatory mediators through a mechanism involving the CD44 receptor. Hyaluronan (HA) depolymerization also contributes to CD44 activation. This study investigated the potential of HA fragments, obtained by hyaluronidase (HYAL) treatment, as mediators of CD44 activation on IL-1beta-induced inflammation in mouse chondrocytes.mRNA and related protein levels were measured for CD44, tumor necrosis factor-alpha (TNF-alpha), interleukin-6 (IL-6), matrix metalloproteinase-13 (MMP-13) and inducible nitric oxide synthase (iNOS) in chondrocytes, treated or untreated with IL-1beta, either with or without the addition of HYAL. The level of NF-kB activation was also assayed.CD44 mRNA expression was higher than controls in chondrocytes treated with IL-1beta. IL-1beta also induced NF-kB up-regulation and increased TNF-alpha, IL-6, MMP-13 and iNOS expression. Different effects resulted from HYAL treatment. Treatment of chondrocytes exposed to IL-1beta with HYAL synergistically increased the same parameters up-regulated by IL-1beta, while the same parameters were increased by HYAL in chondrocytes not exposed to IL-1beta but to a lesser extent. Specific CD44 blocking antibody and hyaluronan binding protein (HABP), which inhibit HA activity, were used to confirm CD44 to be the target of IL-1beta action through HA mediation. HA levels and molecular size further confirm the role of degraded HA.These findings suggest that IL-1beta exerts inflammatory activity via CD44 by the mediation of HA fragments derived from HA depolymerization.     

Carnosic acid and carnosol inhibit adipocyte differentiation in mouse 3T3-L1 cells through induction of phase2 enzymes and activation of glutathione metabolism

In the previous studies, we reported that carnosic acid (CA) and carnosol (CS) originating from rosemary protected cortical neurons by activating the Keap1/Nrf2 pathway, which activation was initiated by S-alkylation of the critical cysteine thiol of the Keap1 protein by the “electrophilic” quinone-type of CA or CS. Here, we found that CA and CS inhibited the in vitro differentiation of mouse preadipocytes, 3T3-L1 cells, into adipocytes. In contrast, other physiologically-active and rosemary-originated compounds were completely negative. These actions seemed to be mediated by activation of the antioxidant-response element (ARE) and induction of phase2 enzymes. This estimation is justified by our present findings that only CA and CS among rosemary-originated compounds significantly activated the ARE and induced the phase2 enzymes. Next, we performed cDNA microarray analysis in order to identify the gene(s) responsible for these biological actions and found that phase2 enzymes (Gsta2, Gclc, Abcc4, and Abcc1), all of which are involved in the metabolism of glutathione (GSH), constituted 4 of the top 5 CA-induced genes. Furthermore, CA and CS, but not the other compounds tested, significantly increased the intracellular level of total GSH. Thus, we propose that the stimulation of GSH metabolism may be a critical step for the inhibition of adipocyte differentiation in 3T3-L1 cells and suggest that pro-electrophilic compounds such as CA and CS may be potential drugs against obesity-related diseases.     

Dermacentor variabilis: regulation of fibroblast migration by tick salivary gland extract and saliva

We examined the effects of tick SGx and saliva on basal- and platelet-derived growth factor (PDGF)-stimulated cell migration and extracellular signal-regulated kinase (ERK) signaling in fibroblasts. Repair of injured monolayers was delayed by SGx pretreatment and was not associated with reductions in cell number. In migration assays, SGx suppressed both basal- and PDGF-stimulated fibroblast movement. Furthermore, SGx and saliva reduced PDGF-stimulated ERK activity. Thus, the delayed repair of monolayer injuries resulted from SGx inhibiting fibroblast migratory responses to chemotactic signals. SGx also suppressed injury- and growth factor-induced ERK activation in renal epithelial OK cells. Our data suggest that maintenance of the tick feeding lesion results, in part, from suppressing ERK signaling and fibroblast migration, events playing integral roles in the wound healing response. The effects of SGx on cells not involved in wound healing suggest that a constituent(s) in tick saliva has global effects on the ERK signaling pathway.     

Structural and functional interaction of (±)-2-(N-tert-butylamino)-3′-iodo-4′-azidopropiophenone,a photoreactive bupropion derivative,with nicotinic acetylcholine receptors

The pharmacological properties of (±)-2-(N-tert-butylamino)-3′-iodo-4′-azidopropiophenone [(±)-SADU-3-72], a photoreactive analog of bupropion (BP), were characterized at different muscle nicotinic acetylcholine receptors (AChRs) by functional and structural approaches. Ca²⁺ influx results indicate that (±)-SADU-3-72 is 17- and 6-fold more potent than BP in inhibiting human (h) embryonic (hα1β1γδ) and adult (hα1β1εδ) muscle AChRs, respectively. (±)-SADU-3-72 binds with high affinity to the [³H]TCP site within the resting or desensitized Torpedo AChR ion channel, whereas BP has higher affinity for desensitized AChRs. Molecular docking results indicate that both SADU-3-72 enantiomers interact with the valine (position 13′) and serine (position 6′) rings. However, an additional domain, between the outer (position 20′) and valine rings, is observed in Torpedo AChR ion channels. Our results indicate that the azido group of (±)-SADU-3-72 may enhance its interaction with polar groups and the formation of hydrogen bonds at AChRs, thus supporting the observed higher potency and affinity of (±)-SADU-3-72 compared to BP. Collectively our results are consistent with a model where BP/SADU-3-72 and TCP bind to overlapping sites within the lumen of muscle AChR ion channels. Based on these results, we believe that (±)-SADU-3-72 is a promising photoprobe for mapping the BP binding site, especially within the resting AChR ion channel.