scholarly journals A Genetic Platform for Functionally Profiling Odorant Receptors Ex Vivo Using Olfactory Cilia.

2021 ◽  
Author(s):  
Masayo Omura ◽  
Yukie Takabatake ◽  
Sigi Benjamin-Hong ◽  
Charlotte D'Hulst ◽  
Paul Feinstein
Keyword(s):  
Ex Vivo ◽  
Surface Expression ◽  
Odorant Receptors ◽  
Cell Surface Expression ◽  
Olfactory Cilia ◽  
Single Animal ◽  
Functional Profiling ◽  
Screening Platform ◽  
Well Assay

The molecular basis for odor perception in humans remains a black box as odorant receptors (ORs) are notoriously difficult to study outside of their native environment. Efforts toward OR expression and functional profiling in heterologous systems have been met with limited success due to poor efficiency of cell surface expression and consequently reduced G-protein signal amplification. We previously reported a genetic strategy in mice to increase the number of sensory neurons expressing specific ORs, which transforms the 10 million neurons of the mouse nose into a bioreactor producing large quantities of fully functional OR protein. We now describe the isolation of cilia from these bioreactors for two human ORs. Cilia are known to contain all components of the olfactory signal transduction machinery and can be placed into an ex vivo well-plate assay to rapidly measure robust, reproducible odor-specific responses. Our OR1A1 and OR5AN1 isolated cilia reveal 10-100fold more sensitivity than existing assays. Tissue from a single animal produces up to 4,000 384-well assay wells, and isolated olfactory cilia can be stored frozen and thus preserved for long term usage. This pipeline offers a sensitive, highly scalable ex vivo odor screening platform that opens the door for decoding human olfaction.

Erlotinib Antagonizes Efflux Via ABC Transporters and Decreases P-Gp Cell Surface Expression by Inhibiting SRC Kinase and mTOR Pathways in Acute Myeloid Leukemia (AML)

Blood ◽  
2011 ◽  
Vol 118 (21) ◽  
pp. 2564-2564 ◽  
Author(s):  
Elodie Lainey ◽  
Marie Sebert ◽  
Cyrielle Bouteloup ◽  
Carole Leroy ◽  
Sylvain Thepot ◽  
...  
Keyword(s):  
Cell Surface ◽  
Protein Expression ◽  
Atpase Activity ◽  
Abc Transporters ◽  
Ex Vivo ◽  
Synergistic Effects ◽  
Surface Expression ◽  
Cell Surface Expression ◽  
Drug Efflux ◽  
Hoechst 33342

Abstract Abstract 2564 Background: Erlotinib (Erlo) was originally developed as an epidermal growth factor receptor inhibitor, yet it also exerts antileukemic “off-target” effects, in vitro and in vivo in MDS and AML (Boehrer et al., Blood, 2008). In a preliminary pre-clinical study, we observed that Erlo increased chemosensitivity to current AML drugs in different AML cell lines and in ex vivo AML patient cells (n=3) (ASH 2010, 2163). Those first results suggested an implication of ABC-transporters in the potentiation of apoptosis. Here, we bring direct evidence for Erlo's ability to hinder efflux pumps and to decrease their expression on AML cells. Methods: Drug efflux via ABC-transporters (substrate: mitoxantrone-MTZ or doxorubicin-Dox), and specific efflux via P-gp (substrates: DioC23 and Rho-123), MRP (s: Calcein and CDCFDA) and BCRP (s: Hoechst 33342) were quantified by FACS following incubation with 10mM Erlo. Intracellular VP-16) content was quantified by Rapid Resolution Liquid Chromatography (RRLC). Biochemical inhibitors of the respective ABC-transporters (CSA (1μM), verapamil (Vera-10μM), MK571 (10μM), KO143 (500nM) served as positive controls. To assess chemosensitivity, 10mM Erlo was combined to AraC (100nM), Dox (100nM), or VP-16 (1mM) and apoptosis over-time (24, 48, 72h) quantified by DioC3(6)/PI staining. Assessment of sensitivity to the drug combinations listed above were carried out in KG-1 cells, and its more immature variant KG-1a and in ex vivo CD34+ marrow cells from AML patients (AML post MDS n=5, de novo AML n=5). P-gp's ATPase activity was quantified with the luminescence-based Pgp-Gloä Assay System. Surface expression of P-gp was determined by FACS analysis and total protein expression of MRP, BCRP and P-gp by immunoblot analysis. Functional relevance of signaling pathways was tested using the SRC inhibitor PP2 (10μM) and the mTOR inhibitor Rapamicin (10nM). Results: We found that I) Erlo inhibited efflux via P-gp, MRP and BCRP as demonstrated by increased intracellular retention of DioC23/Rho-123, Calcein/CDCFDA and Hoechst 33342, respectively, andby its ability to retain MTX (300nM) and Dox (200nM) intracellularly II) Inhibition of drug efflux was higher in KG-1 than in KG-1a cellss, in agreement with a lower expression of P-gp and BCRP on KG-1a as compared to KG-1 cells; III) Quantification of VP-16 by RRLC after incubation with or without Erlo showed the ability of Erlo to increase intracellular VP-16 contents by approximately 60%; IV) Erlo increased ATPase activity in a dose-dependant manner, supporting the notion that Erlo is a competitive inhibitor of P-gp; IV) Erlo combined to VP-16 induced synergistic effects on apoptosis in KG-1 cells, and to a lesser extent in KG-1a (48h KG-1: Erlo 20%, VP-16 38%, Erlo+VP16 78%, KG-1a 48h: Erlo 10%, VP-16: 12%, Erlo+VP16: 35%); V) 48h of incubation with Erlo reduced cell surface expression of P-gp in KG-1 cells by 50%, whereas total P-gp protein expression remained unchanged, suggesting that Erlo interferes exclusively with the protein form expressed on the cell surface, VI) Decrease of P-gp cell surface expression was recapitulated upon incubation with PP2 (10μM) or Rapamicin (10nM); VII) the combination of Erlo+VP-16 in 10 AML-patient samples induced synergistic effects on apoptosis in 5 of them and additive effects in 3 of them. Conclusions: We here confirm that Erlo increases sensitivity towards chemotherapeutic agents subjected to drug efflux via ABC-transporters and delineate the molecular pathways conveying these effects. Disclosures: Fenaux: Celgene: Honoraria, Research Funding.

Erlotinib Inhibits ABC Transporters of AML Progenitors with Stem Cell Features and Increases Chemosensitivity to Current AML Drugs

Blood ◽  
2010 ◽  
Vol 116 (21) ◽  
pp. 2163-2163
Author(s):  
Marie Sebert ◽  
Elodie Lainey ◽  
Sylvain Thepot ◽  
Maximilien Tailler ◽  
Lionel Ades ◽  
...  
Keyword(s):  
Stem Cell ◽  
Cell Surface ◽  
Abc Transporters ◽  
Ex Vivo ◽  
Myeloid Cell ◽  
Surface Expression ◽  
Cell Surface Expression ◽  
Drug Efflux ◽  
Induced Apoptosis ◽  
Over Time

Abstract Abstract 2163 Background: Treatment failure in AML is attributed to the persistence of AML progenitors able, among others, to efflux chemotherapeutic drugs via ABC-transporters. Increased efflux capacity is considered a stem cell feature, and therapeutic inhibition may increase chemosensitivity and help eradicate this progenitor population. Nevertheless, clinical studies assessing a potential benefit of ABC-inhibitors in AML treatment showed no significant survival advantage, possibly because AML cells express different ABC-transporters and classical inhibitors target only a restricted type of efflux channels. We assessed the efficacy of the TKI erlotinib (Erlo) to antagonize drug efflux via most important AML-associated efflux channels, ie P-gp, MRP and BCRP. Methods: Overall drug efflux via ABC-transporters (substrate: mitoxantrone-MTZ), and specific efflux via P-gp (substrates: DioC23 and rhodamine-123), MRP (substrates: calcein and CDCFDA) and BCRP (substrate: Hoechst 33342) were quantified by FACS at 1h and 6h following incubation with 10mM Erlo. Biochemical inhibitors of the respective ABC-transporters (CSA, verapamil, MK-571, KO143) served as controls. Surface expression of P-gp, MRP and BCRP was quantified by FACS. To assess chemosensitivity, 10mM Erlo was combined to AraC (100nM), doxorubicine (Dox, 100nM), or VP-16 (1mM) and apoptosis over-time (24, 48, 72h) quantified by DioC3(6)/PI staining. Assays were carried out in myeloid cell lines (KG-1, MOLM-13, HL-60) and ex vivo AML cells (n=3). Immaturity of AML cells was determined in 2 samples by comparing CD34+ versus CD34- cells, and in one pt by co-staining for CD34, CD38, CD123 and CD133. Results: We found that I) Erlo inhibited efflux via P-gp and MRP as demonstrated by increased intracellular retention of DioC23/Rho-123, and calcein/CDCFDA, respectively; II) this degree of inhibition was higher in KG-1 cells than in MOLM-13 or HL-60 cells; III) inhibition of drug efflux was observed already at 1h of incubation, increased over time (6h); IV) Erlo increased intracellular retention of MTZ faster (at 1h with a further increase at 6h) and at least to the same extent than a combination of all three biochemical efflux inhibitors, showing that Erlo's capacity to hinder drug efflux is not restricted to a single ABC-transporter: V) surface expression of P-gp, MRP and BCRP was strongest on KG-1 cells and not altered upon 1h and 6h of Erlo incubation VI) Erlo increased Dox- and VP16-induced apoptosis (48h KG-1: Erlo alone 20%, Dox alone 10%, VP-16 alone 20%, Erlo+Dox: 40%, VP-16+Erlo: 70%), while having no impact on AraC-induced apoptosis; VI) this pattern of chemosensitization was observed in all myeloid cell lines, but once more most pronounced in KG-1 cells. To test the hypothesis that Erlo has comparable effects in pt-derived AML cells ex vivo, we showed by concomitant cell surface staining that I) immature AML subpopulations had a higher efflux capacity (notably via P-gp) than their more mature counterparts (i.e. in one pt with chemoresistant AML: DioC23/Rho-123 fluorescence twice as high in the CD34-/CD38+, CD123+, CD133- than in the CD34+/CD38dim, CD123-, CD133+ subpopulation); II) cell surface expression of P-gp is twice as high in this more immature population (CD34+/CD38dim, CD123-, CD133+) than in CD34-/CD38+, CD123+, CD133+ cells; III) Erlo antagonizes drug efflux via P-gp and MRP at 1h (increasing further at 6h) of incubation; IV) this effect is most pronounced in the immature progenitor cells (1h: decrease of DioC23/Rho-123 efflux in CD34-/CD38+, CD123+, CD133- cells by about 50% and in the more immature CD34-/CD38+, CD123-, CD133+ cells by about 70%); V) Erlo diminishes cell surface expression of P-gp (48h), most effectively in the progenitor populations (by 30% in the CD34-/CD38+, CD123+, CD133- cells versus 50% in CD34-/CD38+, CD123+, CD133- cells); VI) Erlo is able to retain MTZ in both CD34- and CD34+ AML-subpopulations; VII) these effects are accompanied by an increased sensitivity towards Dox and VP-16; VIII) Erlo-induced chemosensitization is higher in the CD34+ than in CD34- AML cells. Conclusions: We here provide novel evidence that erlotinib is able to overcome the stem cell features of increased expression and functionality of ABC-transporters thereby antagonizing the intrinsic chemoresistance of (immature) AML cells. Those results suggest a potential clinical interest of combining erlotinib to chemotherapy in AML Disclosures: Fenaux: CELGENE, JANSSEN CILAG, AMGEN, ROCHE, GSK, NOVARTIS, MERCK, CEPHALON: Consultancy.

scholarly journals Structural instability and divergence from conserved residues underlie intracellular retention of mammalian odorant receptors

2020 ◽  
Vol 117 (6) ◽  
pp. 2957-2967
Author(s):  
Kentaro Ikegami ◽  
Claire A. de March ◽  
Maira H. Nagai ◽  
Soumadwip Ghosh ◽  
Matthew Do ◽  
...  
Keyword(s):  
Cell Surface ◽  
G Protein ◽  
Surface Expression ◽  
Structural Instability ◽  
G Protein Coupled Receptors ◽  
Machine Learning Techniques ◽  
Odorant Receptors ◽  
Cell Surface Expression ◽  
Conserved Residues ◽  
G Protein Coupled

Mammalian odorant receptors are a diverse and rapidly evolving set of G protein-coupled receptors expressed in olfactory cilia membranes. Most odorant receptors show little to no cell surface expression in nonolfactory cells due to endoplasmic reticulum retention, which has slowed down biochemical studies. Here we provide evidence that structural instability and divergence from conserved residues of individual odorant receptors underlie intracellular retention using a combination of large-scale screening of odorant receptors cell surface expression in heterologous cells, point mutations, structural modeling, and machine learning techniques. We demonstrate the importance of conserved residues by synthesizing consensus odorant receptors that show high levels of cell surface expression similar to conventional G protein-coupled receptors. Furthermore, we associate in silico structural instability with poor cell surface expression using molecular dynamics simulations. We propose an enhanced evolutionary capacitance of olfactory sensory neurons that enable the functional expression of odorant receptors with cryptic mutations.

PKC-Dependent Long-Term Effect of PMA on Protein Cell Surface Expression in Caco-2 Cells

1997 ◽  
Vol 231 (2) ◽  
pp. 308-318 ◽  
Author(s):  
Catherine Sapin ◽  
Laurent Baricault ◽  
Germain Trugnan
Keyword(s):  
Cell Surface ◽  
Surface Expression ◽  
Term Effect ◽  
Cell Surface Expression ◽  
Long Term Effect ◽  
Protein Cell

scholarly journals Volatile allosteric antagonists of mosquito odorant receptors inhibit normal odor-dependent behaviors

2020 ◽  
Author(s):  
Georgia Kythreoti ◽  
Nadia Sdralia ◽  
Panagiota Tsitoura ◽  
Dimitrios P. Papachristos ◽  
Antonios Michaelakis ◽  
...  
Keyword(s):  
Ex Vivo ◽  
Odorant Receptor ◽  
Olfactory Receptors ◽  
Odorant Receptors ◽  
Screening Assay ◽  
Asian Tiger ◽  
Receptor Heteromers ◽  
Small Collection ◽  
Specific Antagonist ◽  
Screening Platform

ABSTRACTOdorant-dependent behaviors in insects are triggered by the binding of odorant ligands to the variable subunits of heteromeric olfactory receptors. Previous studies have shown, however, that specific odor binding to ORco, the common subunit of odorant receptor heteromers, may alter allosterically olfactory receptor function and affect profoundly subsequent behavioral responses. Here we report on the identification of several antagonists of the odorant receptor co-receptor of the African malaria vector Anopheles gambiae, AgamORco, in a small collection of natural volatile organic compounds (VOCs) using a relevant insect cell-based screening platform. Because some of the identified antagonists were previously shown to strongly repel Anopheles and Culex mosquitoes, here we examined the bioactivities of the identified antagonists against Aedes, the third major genus of the Culicidae family. The tested antagonists were found to inhibit the function of Ae. aegypti ORco ex vivo and repel Asian tiger, Ae. albopictus, adult mosquitoes. Specific antagonist binary mixtures elicited higher repellency than single antagonists. Binding competition assays suggested antagonist binding to distinct ORco sites as a likely cause for the enhanced repellence of the blends. These findings demonstrate that a simple screening assay may be used for the identification of allosteric modifiers of olfactory-driven behaviors capable of providing enhanced indoor and outdoor protection against multiple mosquito borne infectious diseases.

scholarly journals YY1 Promotes SCF/c-Kit Signaling and HSC Self-Renewal in Fetal Hematopoiesis

Blood ◽  
2020 ◽  
Vol 136 (Supplement 1) ◽  
pp. 27-27
Author(s):  
Deependra Kumar Singh ◽  
Zhanping Lu ◽  
Shuai Jia ◽  
Xiaona You ◽  
Jing Zhang ◽  
...  
Keyword(s):  
Cell Cycle ◽  
Cell Surface ◽  
Fetal Liver ◽  
Surface Expression ◽  
Cell Surface Expression ◽  
Self Renewal ◽  
Hematopoietic Stem ◽  
Phosphorylated Akt ◽  
Fetal Hematopoiesis

Fetal hematopoietic stem cells (HSCs) exhibit markedly different properties as compared to adult HSCs including cell surface marker expression, proliferation state and repopulation capacity. Changes of HSC activity in postnatal mice is defined by a process of decreasing in cell cycle and entering into quiescence. Yin Yang 1 (YY1) is a ubiquitous transcription factor and mammalian Polycomb Group (PcG) Protein with important functions to regulate embryonic development, lineage differentiation and cell proliferation. While homozygote deletion of YY1 in mice results in lethality at the peri-implantation stage, heterozygote deletion of YY1 causes severe developmental defects. By conditionally deleting YY1 in adult hematopoietic system, our previous study showed that YY1 is an essential regulator for adult hematopoiesis by promoting HSC long-term self-renewal and maintaining adult HSC quiescence. In contrast to adult HSCs, in which quiescence is a fundamental characteristic, over 95% of fetal HSCs are in an active cell cycle to rapidly generate homeostatic levels of blood cells for oxygen transport and immune system development in the growing organism. Herein, we assessed whether YY1 was also required for maintaining fetal HSC pool and regulating fetal HSC functions, and what was the underlying mechanism by which YY1 regulated fetal HSCs. To test how loss-of-function of YY1 impacted fetal hematopoiesis, Yy1f/f mice in which the Yy1 promoter region and exon 1 are flanked by loxP sites, were crossed to Vav-Cre mice to generate heterozygous Yy1f/+ Vav-cre mice. The Vav promoter drives Cre recombinase expression specifically in fetal liver hematopoietic cell starting at day E11.5. Yy1f/+ Vav-cre mice were then subsequently bred with Yy1f/f mice to generate homozygous Yy1f/f Vav-cre mice. Among 141 pups resulting from breeding Yy1f/fto Yy1f/+ Vav-Cre, only 7 were Yy1f/f Vav-Cre (n=7) and was significantly lower than the estimated number (n=35) according to the Mendelian ratio (P<0.05). All Yy1f/f Vav-Cre pups died within 72 hours after birth, which supported essential role of YY1 in fetal hematopoiesis and survival. At E14.5 of fetal development, Yy1f/f Vav-Cre fetuses had reduced numbers of hematopoietic stem and progenitor cells in the liver. In addition, YY1 deficient fetal HSCs failed to self-renew in primary and secondary bone marrow transplantation assays. Colony formation assay showed that fetal liver cells from Yy1f/f Vav-Cre mice failed to form CFU-GEMM, CFU-GU and BFU-E compared to Vav-Cre control. While YY1 promotes SCF/c-Kit signaling in adult HSCs, it does not impact c-Kit cell surface expression in early T cell progenitors (unpublished data). To assess YY1 impact on SCF/c-Kit axle in fetal HSCs, c-Kit transcript level, c-Kit median fluorescence intensity and phosphorylated AKT were measured. Similar as its function in adult HSCs, YY1 deficient fetal HSCs had decreased Kit transcript expression, decreased c-Kit cell surface expression and decreased SCF/c-Kit signaling. Our results supported that YY1 is required for maintaining a continuous pool of HSCs in fetal liver and is critical for fetal HSC long-term self-renewal and differentiation. Similar as its function in adult HSCs, YY1 promotes SCF/c-Kit signaling in fetal HSCs. Disclosures No relevant conflicts of interest to declare.

scholarly journals Structural instability and divergence from conserved residues underlie intracellular retention of mammalian odorant receptors

2019 ◽  
Author(s):  
Kentaro Ikegami ◽  
Claire A. de March ◽  
Maira H. Nagai ◽  
Soumadwip Ghosh ◽  
Matthew Do ◽  
...  
Keyword(s):  
Cell Surface ◽  
G Protein ◽  
Surface Expression ◽  
Structural Instability ◽  
G Protein Coupled Receptors ◽  
Odorant Receptors ◽  
Cell Surface Expression ◽  
Conserved Residues ◽  
Olfactory Cells ◽  
G Protein Coupled

AbstractMammalian odorant receptors are a diverse and rapidly evolving set of G protein-coupled receptors expressed in olfactory cilia membranes. Most odorant receptors show little to no cell surface expression in non-olfactory cells due to endoplasmic reticulum retention, which has slowed down biochemical studies. Here, we provide evidence that structural instability and divergence from conserved residues of individual odorant receptors underlie intracellular retention using a combination of large-scale screening of odorant receptors cell surface expression in heterologous cells, point mutations, structural modeling, and machine learning techniques. We demonstrate the importance of conserved residues by synthesizing “consensus” odorant receptors that show high levels of cell surface expression similar to conventional G protein-coupled receptors. Furthermore, we associate in silico structural instability with poor cell surface expression using molecular dynamics simulations. We propose an enhanced evolutionary capacitance of olfactory sensory neurons that enable the functional expression of odorant receptors with cryptic mutations.Significance StatementOdor detection in mammals depends on the largest family of G protein-coupled receptors, the odorant receptors, which represent ∼2% of our protein-coding genes. The vast majority of odorant receptors are trapped within the cell when expressed in non-olfactory cells. The underlying causes of why odorant receptors cannot be functionally expressed in non-olfactory cells have remained enigmatic for over 20 years. Our study points to divergence from a consensus sequence as a key factor in a receptor’s inability to function in non-olfactory cells, which in turn, helps explain odorant receptors’ exceptional functional diversity and rapid evolution. We also show the success of protein engineering strategies for promoting odorant receptor cell surface expression.

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