Diethyl 4,4′-(3,6-dioxaoctane-1,8-diyl­dioxy)dibenzoate

The title compound, C24H30O8, was obtained by reaction of ethyl 4-hy­droxy­benzoate with 1,2-dichloro­ethane. The mol­ecule occupies a crystallographic inversion center, with its central ethyl­ene bridge in an anti conformation. The other ethyl­ene bridge has a gauche conformation, with the corresponding O—C—C—O torsion angle being 74.2 (1)°. The benzene rings are almost coplanar with the adjacent eth­oxy­carbonyl groups, with an r.m.s. deviation of 0.078 Å

Regulation of Platelet-Derived Growth Factor Receptor Signaling and its Targeting in Cancer Therapy

Overactivity of platelet-derived growth factor receptor (PDGFR) is a frequent event in many types of solid tumors. Therefore, it is of great importance to uncover the mechanisms that regulate PDGF/PDGFR signalling, to develop efficient inhibitors targeting this pathway. The first step of downregulation of PDGFR activity upon ligand binding is internalization; thus we investigated how endocytosis pathways affect PDGFR signaling. We showed that in Ras-transformed fibroblasts, the internalization of PDGFR is shifted from the routine clathrin-dependent endocytosis to macropinocytosis, which results in enhanced PDGFR activity and subsequent downstream signalling, promoting anchorage-independent growth. We were also interested in how intracellular trafficking regulates signalling attenuation of PDGFR. We found that His-domain containing protein tyrosine phosphatase (HD-PTP) positively regulates phosphorylation level of the ubiquitin-ligases c-Cbl and Cbl-b; consistently, silencing of HD-PTP led to a decreased level of PDGFR ubiquitination (paper II). Consequently, internalized PDGFR could not be sorted properly and escaped degradation. This resulted in enhanced activation of phospholipase C γ (PLCγ) and changed kinetics of signal transducer and activator of transcription (STAT) 3 signalling, which further increased colony formation of HD-PTP silenced cells in soft agar, indicating a tumor suppressor role of HD-PTP. Activation of PDGFR leads to stimulation of downstream pathways. We identified Fer kinase as a critical signal transducer downstream of PDGFR in a proteomic screen. We showed that Fer kinase is essential for PDGF-induced STAT3 activation; as a result (paper III), Fer depletion severely blunted the ability of PDGFR signalling to promote anchorage-independent growth in soft agar and delayed tumor initiation in a mouse model. The crosstalk between host and tumor plays a critical role in tumor progression. At present most anti-cancer drugs are targeting tumor cells; we were interested in how targeting tumor host cells affects the efficacy of anti-tumor therapy. We found that selective PDGFRβ inhibition in host cells exerted tumor inhibitory effects on growth and vascularization of tumors with autocrine PDGF signaling, whereas tumors lacking such stimulation show only minor response on tumor growth (paper IV). Meanwhile, we demonstrated that PDGF/PDGFRβ signalling promotes expression of NG2, a marker for pericytes

Diethyl 2,2′-(ethane-1,2-diyldioxy)dibenzoate

The molecular title compound, C20H22O6, was obtained by the reaction of ethyl 2-hydroxybenzoate with 1,2-dichloroethane. The molecule lies on a twofold rotation axis which passes through the middle of the central ethylene bridge. This group exhibits a gauche conformation with the corresponding O—C—C—O torsion angle being 73.2 (2)°. The C atoms of the carboxyl group, the aryl and the O—CH2 group are coplanar, with an r.m.s. deviation of 0.01 Å. The two aryl rings form a dihedral angle of 67.94 (4)°. The ester ethyl group is disordered over two sets of sites with an occupancy ratio of 0.59 (2):0.41 (2). The crystal packing is dominated by van der Waals forces

Neuropeptide Y in itch regulation

Itch is a somatosensory sensation that informs the organism about the presence of potentially harmful substances or parasites, and initiates scratching to remove the threat. Itch-inducing (pruritogenic) substances activate primary afferent neurons in the skin through interactions with specific receptors that converts the stimulus into an electrical signal. These signals are conveyed to the dorsal horn of the spinal cord through the release of neurotransmitters such as natriuretic polypeptide b and somatostatin, leading to an integrated response within a complex spinal inteneuronal network. A large sub-population of somatostatin-expressing spinal interneurons also carry the Neuropeptide Y (NPY) Y1 receptor, indicating that NPY and somatostatin partly regulate the same neuronal pathway. This review focuses on recent findings regarding the role of the NPY/Y1 and somatostatin/SST2A receptor in itch, and also presents data integrating the two neurotransmitter systems

The Neuropeptide Y System Regulates Both Mechanical and Histaminergic Itch

Itch is a somatosensory modality that serves to alert an organism to harmful elements removable by scratching, such as parasites and chemical irritants. Recently, ablation or silencing of neuropeptide Y (NPY)-expressing spinal interneurons was reported to selectively enhance mechanical itch, whereas chemical itch was unaffected. We examined the effect of activating the NPY/Y-1 receptor system on scratch behavior in mice. We found that intrathecal administration of the Y-1 agonist [Leu(31), Pro(34)]-NPY (LP-NPY) attenuated itch behavior induced by application of 0.07 g von Frey filament in the nape of the neck compared with saline treatment, indicating that activation of the spinal NPY/Y-1 system dampens mechanical itch. However, intrathecal administration of LP-NPY also attenuated chemically induced scratching provoked by intradermal application of histamine or the mast cell degranulator 48/80 (histaminergic itch), and the latter effect could be reversed by administration of the Y-1 antagonist BIBO3304. Intrathecal application of the native nonselective agonist NPY also attenuated histamine or 48/80-induced scratching. Our analyses emphasize the importance of including additional quantitative parameters to characterize the full spectrum of itch behavior and show that the NPY/Y-1 system dampens both mechanically and chemically induced scratching and hence is shared by the two submodalities of itch

The Neuropeptide Y Y-2 Receptor Is Coexpressed with Nppb in Primary Afferent Neurons and Y-2 Activation Reduces Histaminergic and IL-31-Induced Itch

Itch stimuli are detected by specialized primary afferents that convey the signal to the spinal cord, but how itch transmission is regulated is still not completely known. Here, we investigated the roles of the neuropeptide Y (NPY)/Y-2 receptor system on scratch behavior. The inhibitory Y-2 receptor is expressed on mouse primary afferents, and intrathecal administration of the Y-2 agonist peptide YY (PYY)(3-36) reduced scratch episode frequency and duration induced by compound 48/80, an effect that could be reversed by intrathecal preadministration of the Y-2 antagonist BIIE0246. Also, scratch episode duration induced by histamine could be reduced by PYY3-36. In contrast, scratch behavior induced by alpha-methyl-5HT, protease-activated receptor-2-activating peptide SLIGRL, chloroquine, topical dust mite extract, or mechanical itch induced by von Frey filaments was unaffected by stimulation of Y2. Primary afferent neurons expressing the Npy2r gene were found to coexpress itch-associated markers such as natriuretic peptide precursor b, oncostatin M receptor, and interleukin (IL) 31 receptor A. Accordingly, intrathecal PYY3-36 reduced the scratch behavior induced by IL-31. Our findings imply that the NPY/Y-2 system reduces histaminergic and IL-31-associated itch through presynaptic inhibition of a subpopulation of itch-associated primary afferents. SIGNIFICANCE STATEMENT The spinal neuropeptide Y system dampens scratching behavior induced by histaminergic compounds and interleukin 31, a cytokine involved in atopic dermatitis, through interactions with the Y-2 receptor. The Y-2 receptor is expressed by primary afferent neurons that are rich in itch-associated neurotransmitters and receptors such as somatostatin, natriuretic peptide precursor b, and interleukin 31 receptors

Specific targeting of PDGFR beta in the stroma inhibits growth and angiogenesis in tumors with high PDGF-BB expression

PDGF-BB/PDGFR beta signaling plays an important role during vascularization by mediating pericyte recruitment to the vasculature, promoting the integrity and function of vessels. Until now it has not been possible to assess the specific role of PDGFR beta signaling in tumor progression and angiogenesis due to lack of appropriate animal models and molecular tools. Methods: In the present study, we used a transgenic knock-in mouse strain carrying a silent mutation in the PDGFR beta ATP binding site that allows specific targeting of PDGFR beta using the compound 1-NaPP1. To evaluate the impact of selective PDGFR beta inhibition of stromal cells on tumor growth we investigated four tumor cell lines with no or low PDGFR beta expression, i.e. Lewis lung carcinoma (LLC), EO771 breast carcinoma, B16 melanoma and a version of B16 that had been engineered to overexpress PDGF-BB (B16/PDGF-BB). Results: We found that specific impairment of PDGFR beta kinase activity by 1-NaPP1 treatment efficiently suppressed growth in tumors with high expression of PDGF-BB, i.e. LLC and B16/PDGF-BB, while the clinically used PDGFR beta kinase inhibitor imatinib did not suppress tumor growth. Notably, tumors with low levels of PDGF-BB, i.e. EO771 and B16, neither responded to 1-NaPP1 nor to imatinib treatment. Inhibition of PDGFR beta by either drug impaired tumor vascularization and also affected pericyte coverage; however, specific targeting of PDGFR beta by 1-NaPP1 resulted in a more pronounced decrease in vessel function with increased vessel apoptosis in high PDGF-BB expressing tumors, compared to treatment with imatinib. In vitro analysis of PDGFR beta ASKA mouse embryo fibroblasts and the mesenchymal progenitor cell line 10T1/2 revealed that PDGF-BB induced NG2 expression, consistent with the in vivo data. Conclusion: Specific targeting of PDGFR beta signaling significantly inhibits tumor progression and angiogenesis depending on PDGF-BB expression. Our data suggest that targeting PDGFR beta in the tumor stroma could have therapeutic value in patients with high tumor PDGF-BB expression.Correction in: THERANOSTICS, Volume: 10, Issue: 16, Pages: 7406-7408, DOI: 10.7150/thno.48039</p

Amelioration of Compound 48/80-Mediated Itch and LL-37-Induced Inflammation by a Single-Stranded Oligonucleotide

Numerous inflammatory skin disorders display a high prevalence of itch. The Mas-related G protein coupled receptor X2 (MRGPRX2) has been shown to modulate itch by inducing non-IgE-mediated mast cell degranulation and the release of endogenous inducers of pruritus. Various substances collectively known as basic secretagogues, which include inflammatory peptides and certain drugs, can trigger MRGPRX2 and thereby induce pseudo-allergic reactions characterized by histamine and protease release as well as inflammation. Here, we investigated the capacity of an immunomodulatory single-stranded oligonucleotide (ssON) to modulate IgE-independent mast cell degranulation and, more specifically, its ability to inhibit the basic secretagogues compound 48/80 (C48/80)-and LL-37in vitroandin vivo. We examined the effect of ssON on MRGPRX2 activationin vitroby measuring degranulation in a human mast cell line (LAD2) and calcium influx in MRGPRX2-transfected HEK293 cells. To determine the effect of ssON on itch, we performed behavioral studies in established mouse models and collected skin biopsies for histological analysis. Additionally, with the use of a rosacea mouse model and RT-qPCR, we investigated the effect on ssON on LL-37-induced inflammation. We reveal that both mast cell degranulation and calcium influx in MRGPRX2 transfected HEK293 cells, induced by the antimicrobial peptide LL-37 and the basic secretagogue C48/80, are effectively inhibited by ssON in a dose-dependent manner. Further, ssON demonstrates a capability to inhibit LL-37 and C48/80 activationin vivoin two mouse models. We show that intradermal injection of ssON in mice is able to block itch induced via C48/80 in a dose-dependent manner. Histological staining revealed that ssON inhibits acute mast cell degranulation in murine skin treated with C48/80. Lastly, we show that ssON treatment ameliorates LL-37-induced inflammation in a rosacea mouse model. Since there is a need for new therapeutics targeting non-IgE-mediated activation of mast cells, ssON could be used as a prospective drug candidate to resolve itch and inflammation in certain dermatoses