Water Soluble Coumarin Quaternary Ammonium Chlorides: Synthesis and Biological Evaluation

In the present study, coumarin‐bearing three pyridinium and three tetra‐alkyl ammonium salts were synthesized. The compounds were fully characterized by ¹H‐ and ¹³C‐NMR, LC/MS and IR spectroscopic methods and elemental analyses. The cytotoxic properties of all compounds were tested against human liver cancer (HepG2), human colorectal cancer (Caco‐2) and non‐cancer mouse fibroblast (L‐929) cell lines. Some compounds performed comparable cytotoxicity with standard drug cisplatin. Antibacterial properties of the compounds were tested against Gram‐negative Escherichia coli and Gram‐positive Bacillus subtilis bacteria, but the compounds did not have any antibacterial effect against both bacteria. Enzyme inhibitory properties of all compounds were tested on the activities of human carbonic anhydrase I and II, and xanthine oxidase. All compounds inhibited both enzymes more effectively than standard drugs, acetazolamide and allopurinol, respectively. The biological evaluation results showed that ionic and water soluble coumarin derivatives are promising structures for further investigations especially on enzyme inhibition field.     

African Programme for Onchocerciasis Control 1995–2015: Model-Estimated Health Impact and Cost

Background

Onchocerciasis causes a considerable disease burden in Africa, mainly through skin and eye disease. Since 1995, the African Programme for Onchocerciasis Control (APOC) has coordinated annual mass treatment with ivermectin in 16 countries. In this study, we estimate the health impact of APOC and the associated costs from a program perspective up to 2010 and provide expected trends up to 2015.

Methods and Findings

With data on pre-control prevalence of infection and population coverage of mass treatment, we simulated trends in infection, blindness, visual impairment, and severe itch using the micro-simulation model ONCHOSIM, and estimated disability-adjusted life years (DALYs) lost due to onchocerciasis. We assessed financial costs for APOC, beneficiary governments, and non-governmental development organizations, excluding cost of donated drugs. We estimated that between 1995 and 2010, mass treatment with ivermectin averted 8.2 million DALYs due to onchocerciasis in APOC areas, at a nominal cost of about US$257 million. We expect that APOC will avert another 9.2 million DALYs between 2011 and 2015, at a nominal cost of US$221 million.

Conclusions

Our simulations suggest that APOC has had a remarkable impact on population health in Africa between 1995 and 2010. This health impact is predicted to double during the subsequent five years of the program, through to 2015. APOC is a highly cost-effective public health program. Given the anticipated elimination of onchocerciasis from some APOC areas, we expect even more health gains and a more favorable cost-effectiveness of mass treatment with ivermectin in the near future.     

Construction of unnatural heterodimeric receptors based on IL‐2 and IL‐6 receptor subunits

Cells have various receptors on their surface for responding to extracellular signals that involve intercellular communication. Although the mechanism of signal transduction by such wild‐type receptors has been studied intensively, there has been minimal effort in investigating whether such receptors could signal when unnaturally coupled. In this study, we investigated whether unnatural receptor pairs comprising interleukin‐2 (IL‐2) and interleukin‐6 (IL‐6) receptor subunits could transduce a signal through forced dimerization. We replaced the extracellular domain of IL‐2R and IL‐6R signaling subunits (IL‐2Rβ, IL‐2Rγ, and gp130) with the FK506‐binding protein (FKBP) or the FKBP12‐rapamycin binding (FRB) domain, the protein pair known to be heterodimerized by rapamycin. When expressed in a hematopoietic cell line, unnatural heterodimers (IL‐2Rβ‐gp130 and IL‐2Rγ‐gp130 pairs) successfully transduced a signal. While the IL‐2Rγ‐gp130 pair maximally mimicked gp130 signaling, the IL‐2Rβ‐gp130 pair gave weaker gp130 signaling and no significant induction of IL‐2Rβ signaling, indicating a high potential of the IL‐2Rγ chain in terms of activating the coupled partners. This is the first report demonstrating that heterodimeric combinations of IL‐2R and IL‐6R subunits are functional for signaling. Further extension of this approach may attain a creative design of artificial receptor pairs that have distinct signaling properties when compared with natural receptors. © 2013 American Institute of Chemical Engineers Biotechnol. Prog., 29:1512–1518, 2013     

Suppression of adenylyl cyclase-mediated cAMP production by plasma membrane associated cytoskeletal protein 4.1G

It has been shown lately that activity of G protein-coupled receptors (GPCRs) is regulated by an array of proteins binding to carboxy (C)-terminus of GPCRs. Proteins of 4.1 family are subsets of subcortical cytoskeletal proteins and are known to stabilize cellular structures and proteins at the plasma membrane. One of the 4.1 family proteins, 4.1G has been shown to interact with the C-terminus of GPCRs and regulate intracellular distribution of the receptors, including parathyroid hormone (PTH)/PTH-related protein receptor (PTHR). PTHR is coupled to trimeric G proteins G_s and G_q, which activate the adenylyl cyclase/cyclic AMP (cAMP) pathway and phospholipase C pathway, respectively. During the course of investigation of the role of 4.1G on adenylyl cyclase/cAMP signaling pathway, we found that 4.1G suppressed forskolin-induced cAMP production in cells. The cAMP accumulation induced by forskolin was decreased in HEK293 cells overexpressing 4.1G or increased in 4.1G-knockdown cells. Furthermore, PTH -(1-34)-stimulated cAMP production was also suppressed in the presence of exogenously expressed 4.1G despite its activity to increase the distribution of PTHR to the cell surface. In cells overexpressing FERM domain-deleted 4.1G, a mutant form of the protein deficient in plasma membrane distribution, neither forskolin-induced nor PTH -(1-34)-stimulated cAMP production was not altered. The suppression of the forskolin-induced cAMP production was observed even in membrane preparations of 4.1G-overexpressing cells. In 4.1G-knockdown HEK293 cells, plasma membrane distribution of adenylyl cyclase 6, one of the major subtypes of the enzyme in the cells, showed a slight decrease, in spite of the increased production of cAMP in those cells when stimulated by forskolin. Also, cytochalasin D treatment did not cause any influence on forskolin-induced cAMP production in HEK293 cells. These data indicate that plasma membrane-associated 4.1G regulates GPCR-mediated G_s signaling by suppressing adenylyl cyclase-mediated cAMP production.     

Epigenetic status of Gdnf in the ventral striatum determines susceptibility and adaptation to daily stressful events

Stressful events during adulthood are potent adverse environmental factors that can predispose individuals to psychiatric disorders, including depression; however, many individuals exposed to stressful events can adapt and function normally. While stress vulnerability may influence depression, the molecular mechanisms underlying the susceptibility and adaptation to chronic stress within the brain are poorly understood. In this study, two genetically distinct mouse strains that exhibit different behavioral responses to chronic stress were used to demonstrate how the differential epigenetic status of the glial cell-derived neurotrophic factor (Gdnf) gene in the ventral striatum modulates susceptibility and adaptation to chronic stress. Our results suggest that the histone modifications and DNA methylation of the Gdnf promoter have crucial roles in the control of behavioral responses to chronic stress. Our data provide insights into these mechanisms, suggesting that epigenetic modifications of Gdnf, along with genetic and environmental factors, contribute to behavioral responses to stress.     

The hydrophobic amino acids in putative helix 8 in carboxy-terminus of histamine H(3) receptor are involved in receptor-G-protein coupling

Functional roles of putative helix 8 in the carboxy-terminal tail of the human histamine H₃ receptor were investigated using deleted and alanine-substituted mutant receptors. While the deletion of the carboxy-terminal tail did not decrease the total expression level, surface expression, or ligand binding affinity, the agonist-stimulated cAMP response, [³⁵S] GTPγS binding, and MAPK activation were totally abolished. The receptor lacking the carboxy-terminal tail also failed to respond to an inverse agonist, thioperamide, suggesting that the carboxy-terminal tail is involved in the regulation of receptor activity by changing G-protein coupling with the receptor. Site-directed mutagenesis revealed that hydrophobic amino acids in the putative helix 8 such as phenylalanines at position 419 (F7.60) and 423 (F7.64) or leucines at 426 (L7.67) and 427 (L7.68) were important for the agonist-induced activation of H₃ receptor. Substitution of F7.60 also resulted in a receptor that was less responsive to inactivation by the inverse agonist, implying the existence of an intermediate conformation that can be either activated or inactivated. Our results suggest that hydrophobic interface of putative helix 8 is important for the regulation of H₃ receptor activity, presumably by stabilizing the helix to the plasma membrane.     

Heat shock factor binds to heat shock elements upstream of heat shock protein 70a and Samui genes to confer transcriptional activity in Bombyx mori diapause eggs exposed to 5°C

To understand the molecular mechanisms of how 5 °C-incubation activates mRNA expression of Hsp70a and Samui genes in Bombyx mori diapause eggs, we first searched the 5′-upstream regions of the Hsp70a and Samui genes for heat shock elements (HSEs) and found two regions [Hsp70aHSE-1 (−95 to −58) and -2 (−145 to −121), and SamuiHSE-1 (−84 to −55) and -2 (−304 to −290)] corresponding to HSEs (repeats of nGAAn and/or nTTCn). We cloned four cDNAs encoding heat shock factor (HSF)-a2 (627 amino acids), -b (685 aa), -c (682 aa) and -d (705 aa), which were produced by alternative splicing. When we exposed diapause eggs to 5 °C beginning at 2 day post-oviposition to break diapause, HSFd mRNA only increased after chilling for 6–8 days, a pattern very similar to those of Hsp70a and Samui mRNAs. To examine further whether HSFd binds to the respective HSEs, we carried out a gel shift assay using HSFd protein expressed in a cell-free system and the isolated HSEs; migration of the respective digoxigenin(DIG)-labeled HSE-1 and -2 of Hsp70a and Samui was retarded by addition of HSFd; the retarded bands disappeared after addition of the corresponding unlabeled HSE-1 and -2 as competitors, but were not affected by addition of the respective mutated unlabeled HSE-1 and -2. These results indicated that HSFd protein binds to the respective HSEs and may activate mRNA expression of Hsp70a and Samui genes upon exposure of diapause eggs to 5 °C.     

Mimicry of erythropoietin and interleukin-6 signalling by an antibody/cytokine receptor chimera in murine myeloid 32D cells

We have previously designed antibody-cytokine receptor chimeras that could respond to a cognate antigen. While these chimeric receptors were functional, it has not been investigated exactly how they mimic signal transduction through corresponding wild-type receptors. In this study, we compared the growth properties and the phosphorylation status of intracellular signal transducers between the erythropoietin receptor (EpoR)- or gp130-based chimeric receptors and wild-type EpoR or EpoR-gp130 chimera, respectively. Expression plasmids, encoding V(H) or V(L) region of anti-hen egg lysozyme (HEL) antibody HyHEL-10 tethered to a pair of extracellular D2 domain of EpoR and transmembrane/cytoplasmic domains of either EpoR or gp130, were constructed, and pairs of chimeric receptor combinations (V(H)-EpoR and V(L)-EpoR, V(H)-gp130 and V(L)-gp130, V(H)-EpoR and V(L)-gp130, V(H)-gp130 and V(L)-EpoR) were expressed in an IL-3-dependent myeloid cell line, 32D. Growth assay revealed that the transfectants all grew in a HEL-dependent manner. As for phosphorylation of Stat3, Stat5, ERK and Akt, the chimeric receptors showed similar activation pattern of signalling molecules with wild-type receptors, although the chimeric receptors showed ligand-independency and a little lower maximal phosphorylation than the corresponding wild-type receptors. The results demonstrate that antibody-receptor chimeras could substantially mimic wild-type receptors.