Your search keyword '"Saubaméa B"' showing total 68 results

1. Femtosecond and excimer laser-assisted endothelial keratoplasty (FELEK): A new technique of endothelial transplantation

Author

Trinh, L., Saubaméa, B., Auclin, F., Denoyer, A., Lai-Kuen, R., El Hamdaoui, M., Labbé, A., Despiau, M.-C., Brignole-Baudouin, F., and Baudouin, C.

Published

2014

2. Loss of EBP50 stimulates EGFR activity to induce EMT phenotypic features in biliary cancer cells

Author

Clapéron, A, Guedj, N, Mergey, M, Vignjevic, D, Desbois-Mouthon, C, Boissan, M, Saubaméa, B, Paradis, V, Housset, C, and Fouassier, L

Published

2012

3. Exotic quantum dark states

Author

Kulin, S., Castin, Y., Ol'shanii, M., Peik, E., Saubaméa, B., Leduc, M., and Cohen-Tannoudji, C.

Published

1999

4. Hemocompatibility of Bioprosthetic valve in bovine pericardium is based on fibrin formation and its endothelization

Author

Richez, U., Latremouille, C., Netuka, I., Roussel, J.C., Saubamea, B., Rossi, E., Kindo, M., Pya, Y., Capel, A., Jansen, P., Carpentier, A., and Smadja, D.

Published

2019

5. Loss of EBP50 stimulates EGFR activity to induce EMT phenotypic features in biliary cancer cells

Author

Clapéron, A, primary, Guedj, N, additional, Mergey, M, additional, Vignjevic, D, additional, Desbois-Mouthon, C, additional, Boissan, M, additional, Saubaméa, B, additional, Paradis, V, additional, Housset, C, additional, and Fouassier, L, additional

Published

2011

6. Experimental Investigation of Nonergodic Effects in Subrecoil Laser Cooling

Author

Saubaméa, B., primary, Leduc, M., additional, and Cohen-Tannoudji, C., additional

Published

1999

7. Carbon Dioxide Laser Saturation Spectroscopy and the Hyperfine Structure of Monosubstituted Ozone16O16O17O and16O17O16O

Author

Butcher, R.J., primary, Saubaméa, B., additional, and Chardonnet, Ch., additional

Published

1998

8. Direct Measurement of The Spatial Correlation Function of Ultracold Atoms

Author

Saubaméa, B., primary, Hijmans, T. W., additional, Kulin, S., additional, Rasel, E., additional, Peik, E., additional, Leduc, M., additional, and Cohen-Tannoudji, C., additional

Published

1997

9. Oxidative stress and inflammation: Implication in endothelial dysfunction and cardiovascular aging on murine models

Author

Baron, S., Bedarida, T., Strelcyn, M.M., Cottart, C.H., Vibert, F., Renault, G., Saubamea, B., Veissieres, E., Henrion, D., Beaudeux, J.L., and Nivet-Antoine, V.

Published

2011

10. COMMD1 promotes CFTR trafficking through inhibition of ubiquitination

Author

Drévillon, L., Tanguy, G., Saubamea, B., de Becdelièvre, A., Hinzpeter, A., Arous, N., and Fanen, P.

Published

2009

11. In situ protein expression in tumour spheres: development of an immunostaining protocol for confocal microscopy

Author

Saubaméa Bruno, Bellet Dominique, Richon Sophie, Guinebretière Jean-Marc, Weiswald Louis-Bastien, and Dangles-Marie Virginie

Subjects

Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282

Abstract

Abstract Background Multicellular tumour sphere models have been shown to closely mimic phenotype characteristics of in vivo solid tumours, or to allow in vitro propagation of cancer stem cells (CSCs). CSCs are usually characterized by the expression of specific membrane markers using flow cytometry (FC) after enzymatic dissociation. Consequently, the spatial location of positive cells within spheres is not documented. Confocal microscopy is the best technique for the imaging of thick biological specimens after multi-labelling but suffers from poor antibody penetration. Thus, we describe here a new protocol for in situ confocal imaging of protein expression in intact spheroids. Methods Protein expression in whole spheroids (150 μm in diameter) from two human colon cancer cell lines, HT29 and CT320X6, has been investigated with confocal immunostaining, then compared with profiles obtained through paraffin immunohistochemistry (pIHC) and FC. Target antigens, relevant for colon cancer and with different expression patterns, have been studied. Results We first demonstrate that our procedure overcomes the well-known problem of antibody penetration in compact structures by performing immunostaining of EpCAM, a membrane protein expressed by all cells within our spheroids. EpCAM expression is detected in all cells, even the deepest ones. Likewise, antibody access is confirmed with CK20 and CD44 immunostaining. Confocal imaging shows that 100% of cells express β-catenin, mainly present in the plasma membrane with also cytoplasmic and nuclear staining, in agreement with FC and pIHC data. pIHC and confocal imaging show similar CA 19-9 cytoplasmic and membranar expression profile in a cell subpopulation. CA 19-9+ cell count confirms confocal imaging as a highly sensitive method (75%, 62% and 51%, for FC, confocal imaging and pIHC, respectively). Finally, confocal imaging reveals that the weak expression of CD133, a putative colon CSC marker, is restricted to the luminal cell surface of colorectal cancer acini, with CD133+ cellular debris into glandular lumina. Conclusion The present protocol enables in situ visualization of protein expression in compact three-dimensional models by whole mount confocal imaging, allowing the accurate localization and quantification of cells expressing specific markers. It should prove useful to study rare events like CSCs within tumour spheres.

Published

2010

12. Low energy electron collisions on OCS: differential vibrational cross sections and S − production around 1 eV

Author

Abouaf, R., Pommier, J., Cvejanovic, S., and Saubaméa, B.

Published

1994

13. Harlequin mice exhibit cognitive impairment, severe loss of Purkinje cells and a compromised bioenergetic status due to the absence of Apoptosis Inducing Factor.

Author

Cwerman-Thibault H, Malko-Baverel V, Le Guilloux G, Torres-Cuevas I, Ratcliffe E, Mouri D, Mignon V, Saubaméa B, Boespflug-Tanguy O, Gressens P, and Corral-Debrinski M

Subjects

Animals, Mice, Male, Mitochondria metabolism, Mitochondria pathology, Mitochondrial Diseases metabolism, Mitochondrial Diseases pathology, Mitochondrial Diseases genetics, Mice, Inbred C57BL, Purkinje Cells metabolism, Purkinje Cells pathology, Energy Metabolism, Apoptosis Inducing Factor metabolism, Apoptosis Inducing Factor genetics, Cognitive Dysfunction metabolism, Cognitive Dysfunction pathology, Cognitive Dysfunction genetics, Disease Models, Animal

Abstract

The functional integrity of the central nervous system relies on complex mechanisms in which the mitochondria are crucial actors because of their involvement in a multitude of bioenergetics and biosynthetic pathways. Mitochondrial diseases are among the most prevalent groups of inherited neurological disorders, affecting up to 1 in 5000 adults and despite considerable efforts around the world there is still limited curative treatments. Harlequin mice correspond to a relevant model of recessive X-linked mitochondrial disease due to a proviral insertion in the first intron of the Apoptosis-inducing factor gene, resulting in an almost complete depletion of the corresponding protein. These mice exhibit progressive degeneration of the retina, optic nerve, cerebellum, and cortical regions leading to irremediable blindness and ataxia, reminiscent of what is observed in patients suffering from mitochondrial diseases. We evaluated the progression of cerebellar degeneration in Harlequin mice, especially for Purkinje cells and its relationship with bioenergetics failure and behavioral damage. For the first time to our knowledge, we demonstrated that Harlequin mice display cognitive and emotional impairments at early stage of the disease with further deteriorations as ataxia aggravates. These functions, corresponding to higher-order cognitive processing, have been assigned to a complex network of reciprocal connections between the cerebellum and many cortical areas which could be dysfunctional in these mice. Consequently, Harlequin mice become a suitable experimental model to test innovative therapeutics, via the targeting of mitochondria which can become available to a large spectrum of neurological diseases., Competing Interests: Declaration of competing interest The authors declare the following financial interests/personal relationships which may be considered as potential competing interests: Marisol CORRAL-DEBRINSKI reports financial support was provided by French Muscular Dystrophy Association. Marisol Corral-Debrinski has patent #EP22306002.1 (Intravenous administration of neuroglobin for treating neurological disorders) pending to None. NONE If there are other authors, they declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2024. Published by Elsevier B.V.)

Published

2024

14. Correction for Bourrel et al., "Specific interaction between Group B Streptococcus CC17 hypervirulent clone and phagocytes".

Author

Bourrel A-S, Picart A, Fernandez J-C, Hays C, Mignon V, Saubaméa B, Poyart C, Fouet A, Tazi A, and Guignot J

Published

2024

15. Neuroglobin overexpression in cerebellar neurons of Harlequin mice improves mitochondrial homeostasis and reduces ataxic behavior.

Author

Cwerman-Thibault H, Malko-Baverel V, Le Guilloux G, Ratcliffe E, Mouri D, Torres-Cuevas I, Millán I, Saubaméa B, Mignon V, Boespflug-Tanguy O, Gressens P, and Corral-Debrinski M

Subjects

Animals, Mice, Apoptosis Inducing Factor metabolism, Apoptosis Inducing Factor genetics, Dependovirus genetics, Disease Models, Animal, Gene Expression, Genetic Therapy methods, Genetic Vectors genetics, Genetic Vectors administration & dosage, Homeostasis, Neurons metabolism, Cerebellar Ataxia metabolism, Cerebellar Ataxia genetics, Cerebellar Ataxia therapy, Cerebellum metabolism, Globins metabolism, Globins genetics, Mitochondria metabolism, Nerve Tissue Proteins metabolism, Nerve Tissue Proteins genetics, Neuroglobin metabolism

Abstract

Neuroglobin, a member of the globin superfamily, is abundant in the brain, retina, and cerebellum of mammals and localizes to mitochondria. The protein exhibits neuroprotective capacities by participating in electron transfer, oxygen supply, and protecting against oxidative stress. Our objective was to determine whether neuroglobin overexpression can be used to treat neurological disorders. We chose Harlequin mice, which harbor a retroviral insertion in the first intron of the apoptosis-inducing factor gene resulting in the depletion of the corresponding protein essential for mitochondrial biogenesis. Consequently, Harlequin mice display degeneration of the cerebellum and suffer from progressive blindness and ataxia. Cerebellar ataxia begins in Harlequin mice at the age of 4 months and is characterized by neuronal cell disappearance, bioenergetics failure, and motor and cognitive impairments, which aggravated with aging. Mice aged 2 months received adeno-associated viral vectors harboring the coding sequence of neuroglobin or apoptosis-inducing factor in both cerebellar hemispheres. Six months later, Harlequin mice exhibited substantial improvements in motor and cognitive skills; probably linked to the preservation of respiratory chain function, Purkinje cell numbers and connectivity. Thus, without sharing functional properties with apoptosis-inducing factor, neuroglobin was efficient in reducing ataxia in Harlequin mice., Competing Interests: Declaration of interests An application for a patent has been filed on neuroglobin in Europe (EP22306002.1) and the United States (PCTEP2023/068369) in 2022 and 2023 (M.C.-D. and P.G)., (Copyright © 2024 The Authors. Published by Elsevier Inc. All rights reserved.)

Published

2024

16. Specific interaction between Group B Streptococcus CC17 hypervirulent clone and phagocytes.

Author

Bourrel A-S, Picart A, Fernandez J-C, Hays C, Mignon V, Saubaméa B, Poyart C, Fouet A, Tazi A, and Guignot J

Subjects

Infant, Newborn, Humans, Streptococcus agalactiae, Macrophages, Clone Cells, Streptococcal Infections microbiology, Meningitis

Abstract

Streptococcus agalactiae also named Group B Streptococcus (GBS) is the most significant pathogen causing invasive infections, such as bacteremia and meningitis, in neonates. Worldwide epidemiological studies have shown that a particular clonal complex (CC) of capsular serotype III, the CC17, is strongly associated with meningitis in neonates and is therefore, designated as the hypervirulent clone. Macrophages are a permissive niche for intracellular bacteria of all GBS clones. In this study, we deciphered the specific interaction of GBS CC17 strains with macrophages. Our study revealed that CC17 strains are phagocytosed at a higher rate than GBS non-CC17 strains by human monocytes and macrophages both in cellular models and in primary cells. CC17-enhanced phagocytosis is due to an initial enhanced-attachment step to macrophages mediated by the CC17-specific surface protein HvgA and the PI-2b pilus (Spb1). We showed that two different inhibitors of scavenger receptors (fucoidan and poly(I)) specifically inhibited CC17 adhesion and phagocytosis while not affecting those of non-CC17 strains. Once phagocytosed, both CC17 and non-CC17 strains remained in a LAMP-1 positive vacuole that ultimately fuses with lysosomes where they can survive at similar rates. Finally, both strains displayed a basal egress which occurs independently from actin and microtubule networks. Our findings provide new insights into the interplay between the hypervirulent GBS CC17 and major players of the host's innate immune response. This enhanced adhesion, leading to increased phagocytosis, could reflect a peculiar capacity of the CC17 lineage to subvert the host immune defenses, establish a niche for persistence or disseminate., Competing Interests: The authors declare no conflict of interest.

Published

2024

17. Fasting upregulates the monocarboxylate transporter MCT1 at the rat blood-brain barrier through PPAR δ activation.

Author

Chasseigneaux S, Cochois-Guégan V, Lecorgne L, Lochus M, Nicolic S, Blugeon C, Jourdren L, Gomez-Zepeda D, Tenzer S, Sanquer S, Nivet-Antoine V, Menet MC, Laplanche JL, Declèves X, Cisternino S, and Saubaméa B

Subjects

Rats, Male, Animals, Endothelial Cells metabolism, Membrane Transport Proteins metabolism, Brain metabolism, Fasting, Blood-Brain Barrier metabolism, PPAR delta metabolism

Abstract

Background: The blood-brain barrier (BBB) is pivotal for the maintenance of brain homeostasis and it strictly regulates the cerebral transport of a wide range of endogenous compounds and drugs. While fasting is increasingly recognized as a potential therapeutic intervention in neurology and psychiatry, its impact upon the BBB has not been studied. This study was designed to assess the global impact of fasting upon the repertoire of BBB transporters., Methods: We used a combination of in vivo and in vitro experiments to assess the response of the brain endothelium in male rats that were fed ad libitum or fasted for one to three days. Brain endothelial cells were acutely purified and transcriptionaly profiled using RNA-Seq. Isolated brain microvessels were used to assess the protein expression of selected BBB transporters through western blot. The molecular mechanisms involved in the adaptation to fasting were investigated in primary cultured rat brain endothelial cells. MCT1 activity was probed by in situ brain perfusion., Results: Fasting did not change the expression of the main drug efflux ATP-binding cassette transporters or P-glycoprotein activity at the BBB but modulated a restrictive set of solute carrier transporters. These included the ketone bodies transporter MCT1, which is pivotal for the brain adaptation to fasting. Our findings in vivo suggested that PPAR δ, a major lipid sensor, was selectively activated in brain endothelial cells in response to fasting. This was confirmed in vitro where pharmacological agonists and free fatty acids selectively activated PPAR δ, resulting in the upregulation of MCT1 expression. Moreover, dosing rats with a specific PPAR δ antagonist blocked the upregulation of MCT1 expression and activity induced by fasting., Conclusions: Altogether, our study shows that fasting affects a selected set of BBB transporters which does not include the main drug efflux transporters. Moreover, we describe a previously unknown selective adaptive response of the brain vasculature to fasting which involves PPAR δ and is responsible for the up-regulation of MCT1 expression and activity. Our study opens new perspectives for the metabolic manipulation of the BBB in the healthy or diseased brain., (© 2024. The Author(s).)

Published

2024

18. Dynamic local mRNA localization and translation occurs during the postnatal molecular maturation of perivascular astrocytic processes.

Author

Avila-Gutierrez K, Slaoui L, Alvear-Perez R, Kozlowski E, Oudart M, Augustin E, Claveau C, Mailly P, Monnet H, Mignon V, Saubaméa B, Boulay AC, and Cohen-Salmon M

Subjects

Mice, Animals, RNA, Messenger metabolism, Astrocytes metabolism

Abstract

Astrocytes are highly ramified and send out perivascular processes (PvAPs) that entirely sheathe the brain's blood vessels. PvAPs are equipped with an enriched molecular repertoire that sustains astrocytic regulatory functions at the vascular interface. In the mouse, PvAP development starts after birth and is essentially complete by postnatal day (P) 15. Progressive molecular maturation also occurs over this period, with the acquisition of proteins enriched in PvAPs. The mechanisms controlling the development and molecular maturation of PvAPs have not been extensively characterized. We reported previously that mRNAs are distributed unequally in mature PvAPs and are locally translated. Since dynamic mRNA localization and local translation influence the cell's polarity, we hypothesized that they might sustain the postnatal maturation of PvAPs. Here, we used a combination of molecular biology and imaging approaches to demonstrate that the development of PvAPs is accompanied by the transport of mRNA and polysomal mRNA into PvAPs, the development of a rough endoplasmic reticulum (RER) network and Golgi cisternae, and local translation. By focusing on genes and proteins that are selectively or specifically expressed in astrocytes, we characterized the developmental profile of mRNAs, polysomal mRNAs and proteins in PvAPs from P5 to P60. We found that some polysomal mRNAs polarized progressively towards the PvAPs. Lastly, we found that expression and localization of mRNAs in developing PvAPs is perturbed in a mouse model of megalencephalic leukoencephalopathy with subcortical cysts. Our results indicate that dynamic mRNA localization and local translation influence the postnatal maturation of PvAPs., (© 2024 The Authors. GLIA published by Wiley Periodicals LLC.)

Published

2024

19. Increasing the π-Expansive Ligands in Ruthenium(II) Polypyridyl Complexes: Synthesis, Characterization, and Biological Evaluation for Photodynamic Therapy Applications.

Author

Pozza MD, Mesdom P, Abdullrahman A, Prieto Otoya TD, Arnoux P, Frochot C, Niogret G, Saubaméa B, Burckel P, Hall JP, Hollenstein M, Cardin CJ, and Gasser G

Subjects

Singlet Oxygen metabolism, DNA, Ligands, Coordination Complexes chemistry, Ruthenium pharmacology, Ruthenium chemistry, Photochemotherapy

Abstract

Lack of selectivity is one of the main issues with currently used chemotherapies, causing damage not only to altered cells but also to healthy cells. Over the last decades, photodynamic therapy (PDT) has increased as a promising therapeutic tool due to its potential to treat diseases like cancer or bacterial infections with a high spatiotemporal control. Ruthenium(II) polypyridyl compounds are gaining attention for their application as photosensitizers (PSs) since they are generally nontoxic in dark conditions, while they show remarkable toxicity after light irradiation. In this work, four Ru(II) polypyridyl compounds with sterically expansive ligands were studied as PDT agents. The Ru(II) complexes were synthesized using an alternative route to those described in the literature, which resulted in an improvement of the synthesis yields. Solid-state structures of compounds [Ru(DIP) 2 phen]Cl 2 and [Ru(dppz) 2 phen](PF 6 ) 2 have also been obtained. It is well-known that compound [Ru(dppz)(phen) 2 ]Cl 2 binds to DNA by intercalation. Therefore, we used [Ru(dppz) 2 phen]Cl 2 as a model for DNA interaction studies, showing that it stabilized two different sequences of duplex DNA. Most of the synthesized Ru(II) derivatives showed very promising singlet oxygen quantum yields, together with noteworthy photocytotoxic properties against two different cancer cell lines, with IC 50 in the micro- or even nanomolar range (0.06-7 μM). Confocal microscopy studies showed that [Ru(DIP) 2 phen]Cl 2 and [Ru(DIP) 2 TAP]Cl 2 accumulate preferentially in mitochondria, while no mitochondrial internalization was observed for the other compounds. Although [Ru(dppn) 2 phen](PF 6 ) 2 did not accumulate in mitochondria, it interestingly triggered an impairment in mitochondrial respiration after light irradiation. Among others, [Ru(dppn) 2 phen](PF 6 ) 2 stands out for its very good IC 50 values, correlated with a very high singlet oxygen quantum yield and mitochondrial respiration disruption.

Published

2023

20. Ru(II)-Cyanine Complexes as Promising Photodynamic Photosensitizers for the Treatment of Hypoxic Tumours with Highly Penetrating 770 nm Near-Infrared Light.

Author

Gandioso A, Izquierdo-García E, Mesdom P, Arnoux P, Demeubayeva N, Burckel P, Saubaméa B, Bosch M, Frochot C, Marchán V, and Gasser G

Subjects

Humans, Photosensitizing Agents pharmacology, Coloring Agents, Photochemotherapy, Coordination Complexes pharmacology, Neoplasms drug therapy, Ruthenium pharmacology

Abstract

Light-activated treatments, such as photodynamic therapy (PDT), provide temporal and spatial control over a specific cytotoxic response by exploiting toxicity differences between irradiated and dark conditions. In this work, a novel strategy for developing near infrared (NIR)-activatable Ru(II) polypyridyl-based photosensitizers (PSs) was successfully developed through the incorporation of symmetric heptamethine cyanine dyes in the metal complex via a phenanthrimidazole ligand. Owing to their strong absorption in the NIR region, the PSs could be efficiently photoactivated with highly penetrating NIR light (770 nm), leading to high photocytotoxicities towards several cancer cell lines under both normoxic and hypoxic conditions. Notably, our lead PS (Ru-Cyn-1), which accumulated in the mitochondria, exhibited a good photocytotoxic activity under challenging low-oxygen concentration (2 % O 2 ) upon NIR light irradiation conditions (770 nm), owing to a combination of type I and II PDT mechanisms. The fact that the PS Protoporphyrin IX (PpIX), the metabolite of the clinically approved 5-ALA PS, was found inactive under the same challenging conditions positions Ru-Cyn-1 complex as a promising PDT agent for the treatment of deep-seated hypoxic tumours., (© 2023 The Authors. Chemistry - A European Journal published by Wiley-VCH GmbH.)

Published

2023

21. Ru(ii)/Os(ii)-based carbonic anhydrase inhibitors as photodynamic therapy photosensitizers for the treatment of hypoxic tumours.

Author

Wang Y, Mesdom P, Purkait K, Saubaméa B, Burckel P, Arnoux P, Frochot C, Cariou K, Rossel T, and Gasser G

Abstract

Photodynamic therapy (PDT) is a medical technique for the treatment of cancer. It is based on the use of non-toxic molecules, called photosensitizers (PSs), that become toxic when irradiated with light and produce reactive oxygen specious (ROS) such as singlet oxygen ( 1 O 2 ). This light-induced toxicity is rather selective since the physician only targets a specific area of the body, leading to minimal side effects. Yet, a strategy to improve further the selectivity of this medical technique is to confine the delivery of the PS to cancer cells only instead of spreading it randomly throughout the body prior to light irradiation. To address this problem, we present here novel sulfonamide-based monopodal and dipodal ruthenium and osmium polypyridyl complexes capable of targeting carbonic anhydrases (CAs) that are a major target in cancer therapy. CAs are overexpressed in the membrane or cytoplasm of various cancer cells. We therefore anticipated that the accumulation of our complexes in or outside the cell prior to irradiation would improve the selectivity of the PDT treatment. We show that our complexes have a high affinity for CAs, accumulate in cancer cells overexpressing CA cells and importantly kill cancer cells under both normoxic and hypoxic conditions upon irradiation at 540 nm. More importantly, Os(ii) compounds still exhibit some phototoxicity under 740 nm irradiation under normoxic conditions. To our knowledge, this is the first description of ruthenium/osmium-based PDT PSs that are CA inhibitors for the selective treatment of cancers., Competing Interests: The authors declare no conflict of interest., (This journal is © The Royal Society of Chemistry.)

Published

2023

22. Imaging the impact of blood-brain barrier disruption induced by focused ultrasound on P-glycoprotein function.

Author

Goutal S, Novell A, Leterrier S, Breuil L, Selingue E, Gerstenmayer M, Marie S, Saubaméa B, Caillé F, Langer O, Truillet C, Larrat B, and Tournier N

Subjects

Animals, Rats, ATP Binding Cassette Transporter, Subfamily B metabolism, Metoclopramide metabolism, ATP Binding Cassette Transporter, Subfamily B, Member 1 metabolism, Blood-Brain Barrier diagnostic imaging, Blood-Brain Barrier metabolism

Abstract

The P-glycoprotein (P-gp/ABCB1) is a major efflux transporter which impedes the brain delivery of many drugs across the blood-brain barrier (BBB). Focused ultrasound with microbubbles (FUS) enables BBB disruption, which immediate and delayed impact on P-gp function remains unclear. Positron emission tomography (PET) imaging using the radiolabeled substrate [ 11 C]metoclopramide provides a sensitive and translational method to study P-gp function at the living BBB. A FUS protocol was devised in rats to induce a substantial and targeted disruption of the BBB in the left hemisphere. BBB disruption was confirmed by the Evan's Blue extravasation test or the minimally-invasive contrast-enhanced MRI. The expression of P-gp was measured 24 h or 48 h after FUS using immunostaining and fluorescence microscopy. The brain kinetics of [ 11 C]metoclopramide was studied by PET at baseline, and both immediately or 24 h after FUS, with or without half-maximum P-gp inhibition (tariquidar 1 mg/kg). In each condition (n = 4-5 rats per group), brain exposure of [ 11 C]metoclopramide was estimated as the area-under-the-curve (AUC) in regions corresponding to the sonicated volume in the left hemisphere, and the contralateral volume. Kinetic modeling was performed to estimate the uptake clearance ratio (R 1 ) of [ 11 C]metoclopramide in the sonicated volume relative to the contralateral volume. In the absence of FUS, half-maximum P-gp inhibition increased brain exposure (+135.0 ± 12.9%, p < 0.05) but did not impact R 1 (p > 0.05). Immediately after FUS, BBB integrity was selectively disrupted in the left hemisphere without any detectable impact on the brain kinetics of [ 11 C]metoclopramide compared with the baseline group (p > 0.05) or the contralateral volume (p > 0.05). 24 h after FUS, BBB integrity was fully restored while P-gp expression was maximally down-regulated (-45.0 ± 4.5%, p < 0.001) in the sonicated volume. This neither impacted AUC nor R 1 in the FUS + 24 h group (p > 0.05). Only when P-gp was inhibited with tariquidar were the brain exposure (+130 ± 70%) and R 1 (+29.1 ± 15.4%) significantly increased in the FUS + 24 h/tariquidar group, relative to the baseline group (p < 0.001). We conclude that the brain kinetics of [ 11 C]metoclopramide specifically depends on P-gp function rather than BBB integrity. Delayed FUS-induced down-regulation of P-gp function can be detected. Our results suggest that almost complete down-regulation is required to substantially enhance the brain delivery of P-gp substrates., Competing Interests: Declaration of Competing Interest None., (Copyright © 2023 Elsevier B.V. All rights reserved.)

Published

2023

23. Structurally Simple Osmium(II) Polypyridyl Complexes as Photosensitizers for Photodynamic Therapy in the Near Infrared.

Author

Mani A, Feng T, Gandioso A, Vinck R, Notaro A, Gourdon L, Burckel P, Saubaméa B, Blacque O, Cariou K, Belgaied JE, Chao H, and Gasser G

Subjects

Animals, Mice, Photosensitizing Agents pharmacology, Photosensitizing Agents therapeutic use, Photosensitizing Agents chemistry, Osmium chemistry, Coordination Complexes pharmacology, Coordination Complexes therapeutic use, Coordination Complexes chemistry, Photochemotherapy, Neoplasms drug therapy, Ruthenium pharmacology, Ruthenium chemistry

Abstract

Five osmium(II) polypyridyl complexes of the general formula [Os(4,7-diphenyl-1,10-phenanthroline) 2 L] 2+ were synthesized as photosensitizers for photodynamic therapy by varying the nature of the ligand L. Thanks to the pronounced π-extended structure of the ligands and the heavy atom effect provided by the osmium center, these complexes exhibit a high absorption in the near-infrared (NIR) region (up to 740 nm), unlike related ruthenium complexes. This led to a promising phototoxicity in vitro against cancer cells cultured as 2D cell layers but also in multicellular tumor spheroids upon irradiation at 740 nm. The complex [Os(4,7-diphenyl-1,10-phenanthroline) 2 (2,2'-bipyridine)] 2+ was found to be the most efficient against various cancer cell lines, with high phototoxicity indexes. Experiments on CT26 tumor-bearing BALB/c mice also indicate that the Os II complexes could significantly reduce tumor growth following 740 nm laser irradiation. The high phototoxicity in the biological window of this structurally simple complex makes it a promising photosensitizer for cancer treatment., (© 2023 The Authors. Angewandte Chemie International Edition published by Wiley-VCH GmbH.)

Published

2023

24. Does lithium poisoning induce brain injuries?-A histopathological rat study.

Author

Klein M, Naffaa V, Chevillard L, Risède P, Saubaméa B, Adle-Biassette H, and Mégarbane B

Subjects

Humans, Male, Rats, Animals, Lithium, Rats, Sprague-Dawley, Brain, Neurotoxicity Syndromes etiology, Brain Injuries chemically induced, Poisoning

Abstract

Due to a narrow therapeutic index, prolonged lithium treatment and overdose may result in neurotoxicity. Neurotoxicity is deemed reversible with lithium clearance. However, echoing the report of syndrome of irreversible lithium-effectuated neurotoxicity (SILENT) in rare severe poisonings, lithium-induced histopathological brain injuries including extensive neuronal vacuolization, spongiosis and ageing-like neurodegenerative changes were described in the rat following acute toxic and pharmacological exposure. We aimed to investigate the histopathological consequences of lithium exposure in rat models mimicking prolonged treatment and all three patterns of acute, acute-on-chronic and chronic poisonings observed in humans. We performed histopathology and immunostaining-based analyses using optic microscopy of brains obtained from male Sprague-Dawley rats randomly assigned to lithium or saline (controls) and treated according to the therapeutic or to the three poisoning models. No lesion was observed in any brain structure in any of the models. Neuron and astrocyte counts did not differ significantly between lithium-treated rats and controls. Our findings support that lithium-induced neurotoxicity is reversible and brain injury not a common feature of toxicity., (© 2023 The Authors. Basic & Clinical Pharmacology & Toxicology published by John Wiley & Sons Ltd on behalf of Nordic Association for the Publication of BCPT (former Nordic Pharmacological Society).)

Published

2023

25. Towards Selective Delivery of a Ruthenium(II) Polypyridyl Complex-Containing Bombesin Conjugate into Cancer Cells.

Author

Silva MJSA, Vinck R, Wang Y, Saubaméa B, Tharaud M, Dominguez-Jurado E, Karges J, Gois PMP, and Gasser G

Subjects

Bombesin, Photosensitizing Agents pharmacology, Coordination Complexes pharmacology, Coordination Complexes radiation effects, Ruthenium pharmacology, Photochemotherapy, Antineoplastic Agents pharmacology, Neoplasms drug therapy

Abstract

An increasing number of novel Ru(II) polypyridyl complexes have been successfully applied as photosensitizers (PSs) for photodynamic therapy (PDT). Despite recent advances in optimized PSs with refined photophysical properties, the lack of tumoral selectivity is often a major hurdle for their clinical development. Here, classical maleimide and versatile NHS-activated acrylamide strategies were employed to site-selectively conjugate a promising Ru(II) polypyridyl complex to the N-terminally Cys-modified Bombesin (BBN) targeting unit. Surprisingly, the decreased cell uptake of these novel Ru-BBN conjugates in cancer cells did not hamper the high phototoxic activity of the Ru-containing bioconjugates and even decreased the toxicity of the constructs in the absence of light irradiation. Overall, although deceiving in terms of selectivity, our new bioconjugates could still be useful for advanced cancer treatment due to their nontoxicity in the dark., (© 2022 Wiley-VCH GmbH.)

Published

2023

26. Fate and biological impact of persistent luminescence nanoparticles after injection in mice: a one-year follow-up.

Author

Lécuyer T, Seguin J, Balfourier A, Delagrange M, Burckel P, Lai-Kuen R, Mignon V, Ducos B, Tharaud M, Saubaméa B, Scherman D, Mignet N, Gazeau F, and Richard C

Subjects

Mice, Animals, Tissue Distribution, Follow-Up Studies, Optical Imaging, Luminescence, Nanoparticles toxicity

Abstract

Persistent luminescence nanoparticles (PLNPs) are attracting growing interest for non-invasive optical imaging of tissues with a high signal to noise ratio. PLNPs can emit a persistent luminescence signal through the tissue transparency window for several minutes, after UV light excitation before systemic administration or directly in vivo through visible irradiation, allowing us to get rid of the autofluorescence signal of tissues. PLNPs constitute a promising alternative to the commercially available optical near infrared probes thanks to their versatile functionalization capabilities for improvement of the circulation time in the blood stream. Nevertheless, while biodistribution for a short time is well known, the long-term fate and toxicity of the PLNP's inorganic core after injection have not been dealt with in depth. Here we extend the current knowledge on ZnGa 1.995 O 4 Cr 0.005 NPs (or ZGO) with a one-year follow-up of their fate after a single systemic administration in mice. We investigated the organ tissue uptake of ZGO with two different coatings and determined their intracellular processing up to one year after injection. The biopersistence of ZGO was assessed, with a long-term retention, quantified by ICP-MS, mostly in the liver and spleen, parallel with a loss of their luminescence properties. The analysis of the toxicity related to combining an animal's weight, key hematological and metabolic markers, histological observations of liver tissues and quantification of the expression of 31 genes linked to different metabolic reactions did not reveal any signs of noxiousness, from the macro scale to the molecular level. Therefore, the ZGO imaging probe has been proven to be a safe and relevant candidate for preclinical studies, allowing its long term use without any in vivo disturbance of the general metabolism.

Published

2022

27. Lung-Adapted Staphylococcus aureus Isolates With Dysfunctional Agr System Trigger a Proinflammatory Response.

Author

Ramond E, Lepissier A, Ding X, Bouvier C, Tan X, Euphrasie D, Monbernard P, Dupuis M, Saubaméa B, Nemazanyy I, Nassif X, Ferroni A, Sermet-Gaudelus I, Charbit A, Coureuil M, and Jamet A

Subjects

Child, Humans, Lung metabolism, Staphylococcal Protein A, Staphylococcus aureus physiology, Tumor Necrosis Factor-alpha, Cystic Fibrosis complications, Cystic Fibrosis microbiology, Staphylococcal Infections microbiology

Abstract

Background: Staphylococcus aureus dominates the lung microbiota of children with cystic fibrosis (CF) and persistent clones are able to establish chronic infection for years, having a direct deleterious impact on lung function. However, in this context, the exact contribution of S. aureus to the decline in respiratory function in children with CF is not elucidated., Methods: To investigate the contribution of persistent S. aureus clones in CF disease, we undertook the analysis of sequential isogenic isolates recovered from 15 young CF patients., Results: Using an air-liquid infection model, we observed a strong correlation between S. aureus adaption in the lung (late isolates), low toxicity, and proinflammatory cytokine secretion. Conversely, early isolates appeared to be highly cytotoxic but did not promote cytokine secretion. We found that cytokine secretion was dependent on staphylococcal protein A (Spa), which was selectively expressed in late compared to early isolates as a consequence of dysfunctional agr quorum-sensing system. Finally, we demonstrated the involvement of TNF-α receptor 1 signaling in the inflammatory response of airway epithelial cells to these lung-adapted S. aureus isolates., Conclusions: Our results suggest an unexpected direct role of bacterial lung adaptation in the progression of chronic lung disease by promoting a proinflammatory response through acquired agr dysfunction., Competing Interests: Potential conflicts of interest. All authors: No reported conflicts of interest. All authors have submitted the ICMJE Form for Disclosure of Potential Conflicts of Interest. Conflicts that the editors consider relevant to the content of the manuscript have been disclosed., (© The Author(s) 2022. Published by Oxford University Press on behalf of Infectious Diseases Society of America. All rights reserved. For permissions, please e-mail: journals.permissions@oup.com.)

Published

2022

28. Red-Absorbing Ru(II) Polypyridyl Complexes with Biotin Targeting Spontaneously Assemble into Nanoparticles in Biological Media.

Author

Vinck R, Gandioso A, Burckel P, Saubaméa B, Cariou K, and Gasser G

Subjects

Biotin, Photosensitizing Agents, Coordination Complexes, Nanoparticles, Photochemotherapy, Ruthenium

Abstract

Four new ruthenium(II) polypyridyl complexes were synthesized to study the effect of poly(ethylene glycol) and/or biotin conjugation on their physical and biological properties, including their hydrophilicity, their cellular uptake, and their phototoxicity. Unexpectedly, these complexes self-assembled into nanoparticles upon dilution in biological media. This behavior leads to their accumulation in lysosomes following their internalization by cells. While a significant increase in cellular uptake was observed for the biotin-conjugated complexes, it did not result in an increase in their phototoxicity. However, their high phototoxicity upon irradiation at long wavelengths (645-670 nm) and their self-assembling behavior make them a promising backbone for the development of new lysosome-targeted photosensitizers for photodynamic therapy.

Published

2022

29. Megalencephalic leukoencephalopathy with subcortical cysts is a developmental disorder of the gliovascular unit.

Author

Gilbert A, Elorza-Vidal X, Rancillac A, Chagnot A, Yetim M, Hingot V, Deffieux T, Boulay AC, Alvear-Perez R, Cisternino S, Martin S, Taïb S, Gelot A, Mignon V, Favier M, Brunet I, Declèves X, Tanter M, Estevez R, Vivien D, Saubaméa B, and Cohen-Salmon M

Subjects

Animals, Cell Adhesion Molecules, Neuron-Glia metabolism, Disease Models, Animal, Membrane Proteins metabolism, Mice, Mice, Knockout, Nerve Tissue Proteins metabolism, Cell Adhesion Molecules, Neuron-Glia genetics, Cysts genetics, Hereditary Central Nervous System Demyelinating Diseases genetics, Membrane Proteins genetics, Nerve Tissue Proteins genetics

Abstract

Absence of the astrocyte-specific membrane protein MLC1 is responsible for megalencephalic leukoencephalopathy with subcortical cysts (MLC), a rare type of leukodystrophy characterized by early-onset macrocephaly and progressive white matter vacuolation that lead to ataxia, spasticity, and cognitive decline. During postnatal development (from P5 to P15 in the mouse), MLC1 forms a membrane complex with GlialCAM (another astrocytic transmembrane protein) at the junctions between perivascular astrocytic processes. Perivascular astrocytic processes along with blood vessels form the gliovascular unit. It was not previously known how MLC1 influences the physiology of the gliovascular unit. Here, using the Mlc1 knock-out mouse model of MLC, we demonstrated that MLC1 controls the postnatal development and organization of perivascular astrocytic processes, vascular smooth muscle cell contractility, neurovascular coupling, and intraparenchymal interstitial fluid clearance. Our data suggest that MLC is a developmental disorder of the gliovascular unit, and perivascular astrocytic processes and vascular smooth muscle cell maturation defects are primary events in the pathogenesis of MLC and therapeutic targets for this disease., Competing Interests: AG, XE, AR, AC, MY, VH, TD, AB, RA, SC, SM, ST, AG, VM, MF, IB, XD, MT, RE, DV, BS, MC No competing interests declared, (© 2021, Gilbert et al.)

Published

2021

30. Endoglin Is an Endothelial Housekeeper against Inflammation: Insight in ECFC-Related Permeability through LIMK/Cofilin Pathway.

Author

Rossi E, Kauskot A, Saller F, Frezza E, Poirault-Chassac S, Lokajczyk A, Bourdoncle P, Saubaméa B, Gaussem P, Pericacho M, Bobe R, Bachelot-Loza C, Pasquali S, Bernabeu C, and Smadja DM

Subjects

Actin Depolymerizing Factors genetics, Animals, Endoglin genetics, Endothelial Cells metabolism, Inflammation genetics, Inflammation metabolism, Lim Kinases genetics, Mice, Neovascularization, Pathologic genetics, Neovascularization, Pathologic metabolism, Actin Depolymerizing Factors metabolism, Cell Membrane Permeability, Endoglin metabolism, Endothelial Cells pathology, Inflammation pathology, Lim Kinases metabolism, Neovascularization, Pathologic pathology

Abstract

Endoglin (Eng) is an endothelial cell (EC) transmembrane glycoprotein involved in adhesion and angiogenesis. Eng mutations result in vessel abnormalities as observed in hereditary hemorrhagic telangiectasia of type 1. The role of Eng was investigated in endothelial functions and permeability under inflammatory conditions, focusing on the actin dynamic signaling pathway. Endothelial Colony-Forming Cells (ECFC) from human cord blood and mouse lung/aortic EC (MLEC, MAEC) from Eng +/+ and Eng +/- mice were used. ECFC silenced for Eng with Eng-siRNA and ctr-siRNA were used to test tubulogenesis and permeability +/- TNFα and +/- LIM kinase inhibitors (LIMKi). In silico modeling of TNFα-Eng interactions was carried out from PDB IDs 5HZW and 5HZV. Calcium ions (Ca 2+ ) flux was studied by Oregon Green 488 in epifluorescence microscopy. Levels of cofilin phosphorylation and tubulin post-translational modifications were evaluated by Western blot. F-actin and actin-tubulin distribution/co-localization were evaluated in cells by confocal microscopy. Eng silencing in ECFCs resulted in a decrease of cell sprouting by 50 ± 15% ( p < 0.05) and an increase in pseudo-tube width (41 ± 4.5%; p < 0.001) compared to control. Upon TNFα stimulation, ECFC Eng-siRNA displayed a significant higher permeability compared to ctr-siRNA ( p < 0.01), which is associated to a higher Ca 2+ mobilization ( p < 0.01). Computational analysis suggested that Eng mitigated TNFα activity. F-actin polymerization was significantly increased in ECFC Eng-siRNA, MAEC +/- , and MLEC +/- compared to controls ( p < 0.001, p < 0.01, and p < 0.01, respectively) as well as actin/tubulin distribution ( p < 0.01). Furthermore, the inactive form of cofilin (P-cofilin at Ser3) was significantly decreased by 36.7 ± 4.8% in ECFC Eng-siRNA compared to ctr-siRNA ( p < 0.001). Interestingly, LIMKi reproduced the absence of Eng on TNFα-induced ECFC-increased permeability. Our data suggest that Eng plays a critical role in the homeostasis regulation of endothelial cells under inflammatory conditions (TNFα), and loss of Eng influences ECFC-related permeability through the LIMK/cofilin/actin rearrangement-signaling pathway.

Published

2021

31. Modifications of physical and functional integrity of the blood-brain barrier in an inducible mouse model of neurodegeneration.

Author

Taccola C, Barneoud P, Cartot-Cotton S, Valente D, Schussler N, Saubaméa B, Chasseigneaux S, Cochois V, Mignon V, Curis E, Lochus M, Nicolic S, Dodacki A, Cisternino S, Declèves X, and Bourasset F

Subjects

Animals, Atrophy, Biological Transport, Blood Vessels pathology, Blood-Brain Barrier physiology, Brain metabolism, Brain pathology, Glucose metabolism, Green Fluorescent Proteins, Mice, Mice, Transgenic, tau Proteins metabolism, Alzheimer Disease chemically induced, Blood-Brain Barrier physiopathology, Cerebrovascular Circulation physiology, Disease Models, Animal

Abstract

The inducible p25 overexpression mouse model recapitulate many hallmark features of Alzheimer's disase including progressive neuronal loss, elevated Aβ, tau pathology, cognitive dysfunction, and impaired synaptic plasticity. We chose p25 mice to evaluate the physical and functional integrity of the blood-brain barrier (BBB) in a context of Tau pathology (pTau) and severe neurodegeneration, at an early (3 weeks ON) and a late (6 weeks ON) stage of the pathology. Using in situ brain perfusion and confocal imaging, we found that the brain vascular surface area and the physical integrity of the BBB were unaltered in p25 mice. However, there was a significant 14% decrease in cerebrovascular volume in 6 weeks ON mice, possibly explained by a significant 27% increase of collagen IV in the basement membrane of brain capillaries. The function of the BBB transporters GLUT1 and LAT1 was evaluated by measuring brain uptake of d-glucose and phenylalanine, respectively. In 6 weeks ON p25 mice, d-glucose brain uptake was significantly reduced by about 17% compared with WT, without any change in the levels of GLUT1 protein or mRNA in brain capillaries. The brain uptake of phenylalanine was not significantly reduced in p25 mice compared with WT. Lack of BBB integrity, impaired BBB d-glucose transport have been observed in several mouse models of AD. In contrast, reduced cerebrovascular volume and an increased basement membrane thickness may be more specifically associated with pTau in mouse models of neurodegeneration., (Copyright © 2021 Elsevier Ltd. All rights reserved.)

Published

2021

32. Airway Mucus Restricts Neisseria meningitidis Away from Nasopharyngeal Epithelial Cells and Protects the Mucosa from Inflammation.

Author

Audry M, Robbe-Masselot C, Barnier JP, Gachet B, Saubaméa B, Schmitt A, Schönherr-Hellec S, Léonard R, Nassif X, and Coureuil M

Subjects

Cell Line, Humans, Models, Theoretical, Mucositis immunology, Mucositis microbiology, Epithelial Cells immunology, Epithelial Cells microbiology, Immunologic Factors metabolism, Mucus metabolism, Nasopharynx immunology, Nasopharynx microbiology, Neisseria meningitidis immunology

Abstract

Neisseria meningitidis is an inhabitant of the nasopharynx, from which it is transmitted from person to person or disseminates in blood and becomes a harmful pathogen. In this work, we addressed colonization of the nasopharyngeal niche by focusing on the interplay between meningococci and the airway mucus that lines the mucosa of the host. Using Calu-3 cells grown in air interface culture (cells grown with the apical domain facing air), we studied meningococcal colonization of the mucus and the host response. Our results suggested that N. meningitidis behaved like commensal bacteria in mucus, without interacting with human cells or actively transmigrating through the cell layer. As a result, type IV pili do not play a role in this model, and meningococci did not trigger a strong innate immune response from the Calu-3 cells. Finally, we have shown that this model is suitable for studying interaction of N. meningitidis with other bacteria living in the nasopharynx and that Streptococcus mitis , but not Moraxella catarrhalis , can promote meningococcal growth in this model. IMPORTANCE N. meningitidis is transmitted from person to person by aerosol droplets produced by breathing, talking, or coughing or by direct contact with a contaminated fluid. The natural reservoir of N. meningitidis is the human nasopharynx mucosa, located at the back of the nose and above the oropharynx. The means by which meningococci cross the nasopharyngeal wall is still under debate, due to the lack of a convenient and relevant model mimicking the nasopharyngeal niche. Here, we took advantage of Calu-3 cells grown in air interface culture to study how meningococci colonize the nasopharyngeal niche. We report that the airway mucus is both a niche for meningococcal growth and a protective barrier against N. meningitidis infection. As such, N. meningitidis behaves like commensal bacteria and is unlikely to induce infection without an external trigger., (Copyright © 2019 Audry et al.)

Published

2019

33. Priming Dental Pulp Stem Cells from Human Exfoliated Deciduous Teeth with Fibroblast Growth Factor-2 Enhances Mineralization Within Tissue-Engineered Constructs Implanted in Craniofacial Bone Defects.

Author

Novais A, Lesieur J, Sadoine J, Slimani L, Baroukh B, Saubaméa B, Schmitt A, Vital S, Poliard A, Hélary C, Rochefort GY, Chaussain C, and Gorin C

Subjects

Animals, Bone Regeneration, Cells, Cultured, Child, Child, Preschool, Collagen chemistry, Female, Humans, Hydrogels chemistry, Male, Mesenchymal Stem Cells cytology, Mesenchymal Stem Cells drug effects, Mice, Mice, Nude, Skull injuries, Skull surgery, Tissue Scaffolds chemistry, Tooth, Deciduous cytology, Calcification, Physiologic, Dental Pulp cytology, Fibroblast Growth Factor 2 pharmacology, Mesenchymal Stem Cells metabolism, Tissue Engineering methods

Abstract

The craniofacial area is prone to trauma or pathologies often resulting in large bone damages. One potential treatment option is the grafting of a tissue-engineered construct seeded with adult mesenchymal stem cells (MSCs). The dental pulp appears as a relevant source of MSCs, as dental pulp stem cells display strong osteogenic properties and are efficient at bone formation and repair. Fibroblast growth factor-2 (FGF-2) and/or hypoxia primings were shown to boost the angiogenesis potential of dental pulp stem cells from human exfoliated deciduous teeth (SHED). Based on these findings, we hypothesized here that these primings would also improve bone formation in the context of craniofacial bone repair. We found that both hypoxic and FGF-2 primings enhanced SHED proliferation and osteogenic differentiation into plastically compressed collagen hydrogels, with a much stronger effect observed with the FGF-2 priming. After implantation in immunodeficient mice, the tissue-engineered constructs seeded with FGF-2 primed SHED mediated faster intramembranous bone formation into critical size calvarial defects than the other groups (no priming and hypoxia priming). The results of this study highlight the interest of FGF-2 priming in tissue engineering for craniofacial bone repair. Stem Cells Translational Medicine 2019;8:844&857., (© 2019 The Authors. Stem Cells Translational Medicine published by Wiley Periodicals, Inc. on behalf of AlphaMed Press.)

Published

2019

34. Determination of sets of covariating gene expression using graph analysis on pairwise expression ratios.

Author

Curis E, Courtin C, Geoffroy PA, Laplanche JL, Saubaméa B, and Marie-Claire C

Subjects

Computational Biology, Gene Expression, RNA, Sequence Analysis, RNA methods, Software

Abstract

Motivation: RNA quantification experiments result in compositional data, however usual methods for compositional data analysis [additive log ratio (alr), centered log ratio (clr), isometric log ratio (ilr)] do not apply easily and give results difficult to interpret. To handle this, a method based on disjoint subgraphs in a graph whose nodes are the quantified RNAs is proposed. Edges in the graph are defined by lack of change in ratios of the corresponding RNAs between conditions., Results: The methods is suited for qRT-PCR and RNA-Seq data analyses, and leads to easy-to-interpret, graphical results and the identification of set of genes that share a similar behavior when the studied condition changes. For qRT-PCR data, it has better statistical properties than the common ΔΔCq method., Availability and Implementation: Construction of all pairwise ratio analysis P-values matrix, and conversion into a graph was implemented in an R package, named SARP.compo. It is freely available for download on the CRAN repository. Example R script using the package are provided as Supplementary Material; the R package includes the data needed. One of these scripts reproduces the Figure 2 of this paper., Supplementary Information: Supplementary data are available at Bioinformatics online.

Published

2019

35. Preparing the Astrocyte Perivascular Endfeet Transcriptome to Investigate Astrocyte Molecular Regulations at the Brain-Vascular Interface.

Author

Boulay AC, Mazaré N, Saubaméa B, and Cohen-Salmon M

Subjects

Protein Biosynthesis, RNA, Messenger genetics, RNA, Messenger isolation & purification, Ribosomes metabolism, Astrocytes metabolism, Blood-Brain Barrier metabolism, Gene Expression Profiling methods, Transcriptome

Abstract

Astrocytes send out long processes that are terminated by endfeet at the vascular surface and regulate vascular functions in particular through the expression of a specific molecular repertoire in perivascular endfeet. We recently proposed that local translation might sustain this structural and functional polarization. More specifically we showed that a subset of mRNAs is distributed in astrocyte endfeet and characterized this transcriptome. We also identified among these endfeet RNAs, the ones bound to ribosomes, the polysomal astrocyte endfeet mRNAs, which we called the endfeetome. Here, we describe experimental strategies to identify mRNAs and polysomes in astrocyte perivascular endfeet, which are based on the combination of gliovascular unit purification and astrocyte-specific translating ribosome affinity purification.

Published

2019

36. Isolation and differential transcriptome of vascular smooth muscle cells and mid-capillary pericytes from the rat brain.

Author

Chasseigneaux S, Moraca Y, Cochois-Guégan V, Boulay AC, Gilbert A, Le Crom S, Blugeon C, Firmo C, Cisternino S, Laplanche JL, Curis E, Declèves X, and Saubaméa B

Subjects

Animals, Male, RNA, Messenger genetics, RNA, Messenger metabolism, Rats, Rats, Sprague-Dawley, Brain blood supply, Capillaries cytology, Gene Expression Profiling, Muscle, Smooth, Vascular cytology, Pericytes metabolism

Abstract

Brain mural cells form a heterogeneous family which significantly contributes to the maintenance of the blood-brain barrier and regulation of the cerebral blood flow. Current procedures to isolate them cannot specifically separate their distinct subtypes, in particular vascular smooth muscle cells (VSMCs) and mid-capillary pericytes (mcPCs), which differ among others by their expression of smooth muscle actin (SMA). We herein describe an innovative method allowing SMA + VSMCs and SMA - mcPCs to be freshly isolated from the rat cerebral cortex. Using differential RNA-Seq analysis, we then reveal the specific gene expression profile of each subtype. Our results refine the current description of the role of VSMCs in parenchymal cortical arterioles at the molecular level and provide a unique platform to identify the molecular mechanisms underlying the specific functions of mcPCs in the brain vasculature.

Published

2018

37. Cwp19 Is a Novel Lytic Transglycosylase Involved in Stationary-Phase Autolysis Resulting in Toxin Release in Clostridium difficile .

Author

Wydau-Dematteis S, El Meouche I, Courtin P, Hamiot A, Lai-Kuen R, Saubaméa B, Fenaille F, Butel MJ, Pons JL, Dupuy B, Chapot-Chartier MP, and Peltier J

Subjects

Bacterial Proteins chemistry, Bacterial Proteins genetics, Catalytic Domain, Cell Wall genetics, Cell Wall metabolism, Clostridioides difficile genetics, Clostridioides difficile physiology, Clostridium Infections microbiology, Gene Expression Regulation, Bacterial, Humans, Peptidoglycan Glycosyltransferase chemistry, Peptidoglycan Glycosyltransferase genetics, Bacterial Proteins metabolism, Bacteriolysis, Clostridioides difficile enzymology, Clostridioides difficile growth & development, Peptidoglycan Glycosyltransferase metabolism

Abstract

Clostridium difficile is the major etiologic agent of antibiotic-associated intestinal disease. Pathogenesis of C. difficile is mainly attributed to the production and secretion of toxins A and B. Unlike most clostridial toxins, toxins A and B have no signal peptide, and they are therefore secreted by unusual mechanisms involving the holin-like TcdE protein and/or autolysis. In this study, we characterized the cell surface protein Cwp19, a newly identified peptidoglycan-degrading enzyme containing a novel catalytic domain. We purified a recombinant His 6 -tagged Cwp19 protein and showed that it has lytic transglycosylase activity. Moreover, we observed that Cwp19 is involved in cell autolysis and that a C. difficile cwp19 mutant exhibited delayed autolysis in stationary phase compared to the wild type when bacteria were grown in brain heart infusion (BHI) medium. Wild-type cell autolysis is correlated to strong alterations of cell wall thickness and integrity and to release of cytoplasmic material. Furthermore, we demonstrated that toxins were released into the extracellular medium as a result of Cwp19-induced autolysis when cells were grown in BHI medium. In contrast, Cwp19 did not induce autolysis or toxin release when cells were grown in tryptone-yeast extract (TY) medium. These data provide evidence for the first time that TcdE and bacteriolysis are coexisting mechanisms for toxin release, with their relative contributions in vitro depending on growth conditions. Thus, Cwp19 is an important surface protein involved in autolysis of vegetative cells of C. difficile that mediates the release of the toxins from the cell cytosol in response to specific environment conditions. IMPORTANCE Clostridium difficile -associated disease is mainly known as a health care-associated infection. It represents the most problematic hospital-acquired infection in North America and Europe and exerts significant economic pressure on health care systems. Virulent strains of C. difficile generally produce two toxins that have been identified as the major virulence factors. The mechanism for release of these toxins from bacterial cells is not yet fully understood but is thought to be partly mediated by bacteriolysis. Here we identify a novel peptidoglycan hydrolase in C. difficile , Cwp19, exhibiting lytic transglycosylase activity. We show that Cwp19 contributes to C. difficile cell autolysis in the stationary phase and, consequently, to toxin release, most probably as a response to environmental conditions such as nutritional signals. These data highlight that Cwp19 constitutes a promising target for the development of new preventive and curative strategies., (Copyright © 2018 Wydau-Dematteis et al.)

Published

2018

38. Expression and function of Abcg4 in the mouse blood-brain barrier: role in restricting the brain entry of amyloid-β peptide.

Author

Dodacki A, Wortman M, Saubaméa B, Chasseigneaux S, Nicolic S, Prince N, Lochus M, Raveu AL, Declèves X, Scherrmann JM, Patel SB, and Bourasset F

Subjects

ATP Binding Cassette Transporter, Subfamily G chemistry, ATP-Binding Cassette Transporters genetics, ATP-Binding Cassette Transporters metabolism, Amyloid beta-Peptides chemistry, Animals, Biomarkers, Capillary Permeability, Cell Membrane Permeability, Desmosterol metabolism, Fluorescent Antibody Technique, Gene Targeting, Genetic Loci, Mice, Mice, Knockout, Models, Molecular, Protein Binding, Protein Conformation, Protein Multimerization, Structure-Activity Relationship, ATP Binding Cassette Transporter, Subfamily G genetics, ATP Binding Cassette Transporter, Subfamily G metabolism, Amyloid beta-Peptides metabolism, Blood-Brain Barrier metabolism, Brain metabolism, Gene Expression

Abstract

ABCG4 is an ATP-binding cassette transmembrane protein which has been shown, in vitro, to participate in the cellular efflux of desmosterol and amyloid-β peptide (Aβ). ABCG4 is highly expressed in the brain, but its localization and function at the blood-brain barrier (BBB) level remain unknown. We demonstrate by qRT-PCR and confocal imaging that mouse Abcg4 is expressed in the brain capillary endothelial cells. Modelling studies of the Abcg4 dimer suggested that desmosterol showed thermodynamically favorable binding at the putative sterol-binding site, and this was greater than for cholesterol. Additionally, unbiased docking also showed Aβ binding at this site. Using a novel Abcg4-deficient mouse model, we show that Abcg4 was able to export Aβ and desmosterol at the BBB level and these processes could be inhibited by probucol and L-thyroxine. Our assay also showed that desmosterol antagonized the export of Aβ, presumably as both bind at the sterol-binding site on Abcg4. We show for the first time that Abcg4 may function in vivo to export Aβ at the BBB, in a process that can be antagonized by its putative natural ligand, desmosterol (and possibly cholesterol).

Published

2017

39. Bioprosthetic Total Artificial Heart Induces a Profile of Acquired Hemocompatibility With Membranes Recellularization.

Author

Smadja DM, Saubaméa B, Susen S, Kindo M, Bruneval P, Van Belle E, Jansen P, Roussel JC, Latrémouille C, and Carpentier A

Subjects

Aged, Autopsy methods, Equipment Failure Analysis, Fatal Outcome, Humans, Male, Materials Testing methods, Prosthesis Implantation adverse effects, Prosthesis Implantation instrumentation, Prosthesis Implantation methods, Bioprosthesis adverse effects, Cardiac Surgical Procedures adverse effects, Cardiac Surgical Procedures instrumentation, Cardiac Surgical Procedures methods, Heart, Artificial adverse effects, Hemolysis, Hemorheology, Postoperative Complications diagnosis, Postoperative Complications physiopathology

Published

2017

40. Translation in astrocyte distal processes sets molecular heterogeneity at the gliovascular interface.

Author

Boulay AC, Saubaméa B, Adam N, Chasseigneaux S, Mazaré N, Gilbert A, Bahin M, Bastianelli L, Blugeon C, Perrin S, Pouch J, Ducos B, Le Crom S, Genovesio A, Chrétien F, Declèves X, Laplanche JL, and Cohen-Salmon M

Abstract

Astrocytes send out long processes that are terminated by endfeet at the vascular surface and regulate vascular functions as well as homeostasis at the vascular interface. To date, the astroglial mechanisms underlying these functions have been poorly addressed. Here we demonstrate that a subset of messenger RNAs is distributed in astrocyte endfeet. We identified, among this transcriptome, a pool of messenger RNAs bound to ribosomes, the endfeetome, that primarily encodes for secreted and membrane proteins. We detected nascent protein synthesis in astrocyte endfeet. Finally, we determined the presence of smooth and rough endoplasmic reticulum and the Golgi apparatus in astrocyte perivascular processes and endfeet, suggesting for local maturation of membrane and secreted proteins. These results demonstrate for the first time that protein synthesis occurs in astrocyte perivascular distal processes that may sustain their structural and functional polarization at the vascular interface., Competing Interests: The authors declare no conflict of interest.

Published

2017

41. Blood-brain and retinal barriers show dissimilar ABC transporter impacts and concealed effect of P-glycoprotein on a novel verapamil influx carrier.

Author

Chapy H, Saubaméa B, Tournier N, Bourasset F, Behar-Cohen F, Declèves X, Scherrmann JM, and Cisternino S

Subjects

ATP-Binding Cassette Transporters genetics, Animals, Biological Transport, Male, Mice, Knockout, Mitoxantrone pharmacology, Zidovudine pharmacology, ATP-Binding Cassette Transporters metabolism, Blood-Brain Barrier metabolism, Blood-Retinal Barrier metabolism, Verapamil pharmacology

Abstract

Background and Purpose: The respective impact and interplay between ABC (P-glycoprotein/P-gp/Abcb1a, BCRP/ABCG2, MRP/ABCC) and SLC transporter functions at the blood-brain barrier (BBB) and blood-retinal barriers (BRB) are incompletely understood., Experimental Approach: We measured the initial cerebral and retinal distribution of selected ABC substrates by in situ carotid perfusion using P-gp/Bcrp knockout mice and chemical ABC/SLC modulation strategies. P-gp, Bcrp, Mrp1 and Mrp4 were studied by confocal retina imaging., Key Results: Chemical or physical disruption of P-gp increased [(3) H]-verapamil transport by ~10-fold at the BBB and ~1.5-fold at the BRB. [(3) H]-Verapamil transport involved influx-mediated by an organic cation clonidine-sensitive/diphenhydramine-sensitive proton antiporter at both barriers; this effect was unmasked when P-gp was partially or fully inhibited/disrupted at the BBB. Studies of [(3) H]-mitoxantrone and [(3) H]-zidovudine transport suggested, respectively, that Bcrp efflux was less involved at the BRB than BBB, whereas Mrps were significantly and similarly involved at both barriers. Confocal imaging showed that P-gp and Bcrp were expressed in intra-retinal vessels (inner BRB/iBRB) but absent from the blood/basal membrane of cells of the retinal pigment epithelium (outer BRB/oBRB/RPE) where, in contrast, Mrp1 and Mrp4 were localized., Conclusions and Implications: P-gp, Bcrp, Mrp1 and Mrp4 are differentially expressed at the outer and inner BRB, resulting in an altered ability to limit substrate distribution at the retina as compared with the BBB. [(3) H]-Verapamil distribution is not P-gp-specific and involves a proton antiporter at both the BBB and BRB. However, this transport is concealed by P-gp at the BBB, but not at the BRB, where P-gp activity is reduced., (© 2015 The British Pharmacological Society.)

Published

2016

42. Purification of Mouse Brain Vessels.

Author

Boulay AC, Saubaméa B, Declèves X, and Cohen-Salmon M

Subjects

Animals, Biological Transport, Cytological Techniques methods, Endothelial Cells cytology, Mice, Pericytes cytology, Signal Transduction, Tight Junctions physiology, Blood-Brain Barrier cytology, Brain blood supply

Abstract

In the brain, most of the vascular system consists of a selective barrier, the blood-brain barrier (BBB) that regulates the exchange of molecules and immune cells between the brain and the blood. Moreover, the huge neuronal metabolic demand requires a moment-to-moment regulation of blood flow. Notably, abnormalities of these regulations are etiological hallmarks of most brain pathologies; including glioblastoma, stroke, edema, epilepsy, degenerative diseases (ex: Parkinson's disease, Alzheimer's disease), brain tumors, as well as inflammatory conditions such as multiple sclerosis, meningitis and sepsis-induced brain dysfunctions. Thus, understanding the signaling events modulating the cerebrovascular physiology is a major challenge. Much insight into the cellular and molecular properties of the various cell types that compose the cerebrovascular system can be gained from primary culture or cell sorting from freshly dissociated brain tissue. However, properties such as cell polarity, morphology and intercellular relationships are not maintained in such preparations. The protocol that we describe here is designed to purify brain vessel fragments, whilst maintaining structural integrity. We show that isolated vessels consist of endothelial cells sealed by tight junctions that are surrounded by a continuous basal lamina. Pericytes, smooth muscle cells as well as the perivascular astrocyte endfeet membranes remain attached to the endothelial layer. Finally, we describe how to perform immunostaining experiments on purified brain vessels.

Published

2015

43. The functional dlt operon of Clostridium butyricum controls the D-alanylation of cell wall components and influences cell septation and vancomycin-induced lysis.

Author

Wydau-Dematteis S, Louis M, Zahr N, Lai-Kuen R, Saubaméa B, Butel MJ, and Pons JL

Subjects

Cell Division, Cell Wall metabolism, Clostridium butyricum growth & development, Microscopy, Surface Properties, Alanine metabolism, Anti-Bacterial Agents pharmacology, Bacteriolysis drug effects, Clostridium butyricum genetics, Operon, Teichoic Acids metabolism, Vancomycin pharmacology

Abstract

Clostridium butyricum is a Gram-positive bacterium involved in the development of necrotizing enterocolitis (NEC) in preterm infants. To colonize the digestive tract, components of the cell wall of C. butyricum must interact with the intestinal mucosa. The D-alanylation of cell wall components such as teichoic acids results in a net positive charge on the cell wall, which is important for many functions of Gram-positive bacteria. Notably, D-alanylation mediates resistance to antimicrobial peptides and antibiotics. Here, we show that the dlt operon of C. butyricum encodes the enzymes responsible for the D-alanylation of cell wall components and influences the surface properties of the cell wall. We show that the D-alanylation of cell wall components controls the septation of C. butyricum, which is an essential mechanism during vegetative growth. Furthermore, we find that D-alanylation is involved in the resistance of C. butyricum to some cationic antimicrobial peptides (CAMPs) and lysozyme. Finally, we show that the D-alanylation of cell wall components influences vancomycin-induced lysis., (Copyright © 2015 Elsevier Ltd. All rights reserved.)

Published

2015

44. Immune quiescence of the brain is set by astroglial connexin 43.

Author

Boulay AC, Mazeraud A, Cisternino S, Saubaméa B, Mailly P, Jourdren L, Blugeon C, Mignon V, Smirnova M, Cavallo A, Ezan P, Avé P, Dingli F, Loew D, Vieira P, Chrétien F, and Cohen-Salmon M

Subjects

Age Factors, Albumins metabolism, Animals, Astrocytes ultrastructure, Blood-Brain Barrier metabolism, Blood-Brain Barrier ultrastructure, CD3 Complex metabolism, Calcium-Binding Proteins metabolism, Carbon Isotopes pharmacokinetics, Cell Movement genetics, Cells, Cultured, Connexin 43 genetics, Endothelial Cells drug effects, Endothelial Cells metabolism, Female, Glial Fibrillary Acidic Protein, Immunity, Humoral genetics, Male, Mice, Mice, Inbred C57BL, Mice, Transgenic, Microfilament Proteins metabolism, Nerve Tissue Proteins genetics, Nerve Tissue Proteins metabolism, S100 Proteins genetics, S100 Proteins metabolism, Sucrose pharmacokinetics, Astrocytes metabolism, Brain cytology, Brain immunology, Connexin 43 metabolism, Cytokines metabolism, Immunity, Humoral physiology, Leukocytes physiology

Abstract

In the normal brain, immune cell trafficking and immune responses are strictly controlled and limited. This unique homeostatic equilibrium, also called brain immune quiescence, is crucial to maintaining proper brain functions and is altered in various pathological processes, from chronic immunopathological disorders to cognitive and psychiatric impairments. To date, the precise nature of factors regulating the brain/immune system interrelationship is poorly understood. In the present study, we demonstrate that one of these regulating factors is Connexin 43 (Cx43), a gap junction protein highly expressed by astrocytes at the blood-brain barrier (BBB) interface. We show that, by setting the activated state of cerebral endothelium, astroglial Cx43 controls immune recruitment as well as antigen presentation mechanisms in the mouse brain. Consequently, in the absence of astroglial Cx43, recruited immune cells elaborate a specific humoral autoimmune response against the von Willebrand factor A domain-containing protein 5a, an extracellular matrix protein of the brain. Altogether, our results demonstrate that Cx43 is a new astroglial factor promoting the immune quiescence of the brain., (Copyright © 2015 the authors 0270-6474/15/354427-13$15.00/0.)

Published

2015

45. The Sarcoglycan complex is expressed in the cerebrovascular system and is specifically regulated by astroglial Cx30 channels.

Author

Boulay AC, Saubaméa B, Cisternino S, Mignon V, Mazeraud A, Jourdren L, Blugeon C, and Cohen-Salmon M

Abstract

Astrocytes, the most prominent glial cell type in the brain, send specialized processes called endfeet, around blood vessels and express a large molecular repertoire regulating the cerebrovascular system physiology. One of the most striking properties of astrocyte endfeet is their enrichment in gap junction proteins Connexin 43 and 30 (Cx43 and Cx30) allowing in particular for direct intercellular trafficking of ions and small signaling molecules through perivascular astroglial networks. In this study, we addressed the specific role of Cx30 at the gliovascular interface. Using an inactivation mouse model for Cx30 (Cx30(Δ/Δ); Δ means deleted allele) we showed that absence of Cx30 does not affect blood-brain barrier (BBB) organization and permeability. However, it results in the cerebrovascular fraction, in a strong upregulation of Sgcg encoding γ-Sarcoglycan (γ-SG), a member of the Dystrophin-associated protein complex (DAPC) connecting cytoskeleton and the extracellular matrix. The same molecular event occurs in Cx30(T5M/T5M) mutated mice, where Cx30 channels are closed, demonstrating that Sgcg regulation relied on Cx30 channel functions. We further characterized the expression of other Sarcoglycan complex (SGC) molecules in the cerebrovascular system and showed the presence of α-, β-, δ-, γ-, ε- and ζ- SG, as well as Sarcospan. Their expression was however not modified in Cx30(Δ/Δ). These results suggest that a full SGC might be present in the cerebrovascular system, and that expression of one of its member, γ-SG, depends on Cx30 channels. As described in skeletal muscles, the SGC may contribute to membrane stabilization and signal transduction in the cerebrovascular system, which may therefore be regulated by Cx30 channel-mediated functions.

Published

2015

46. Hypoxia interferes with aryl hydrocarbon receptor pathway in hCMEC/D3 human cerebral microvascular endothelial cells.

Author

Jacob A, Potin S, Saubaméa B, Crete D, Scherrmann JM, Curis E, Peyssonnaux C, and Declèves X

Subjects

Cell Hypoxia physiology, Cells, Cultured, Humans, Microvessels cytology, Molecular Sequence Data, Cerebrovascular Circulation physiology, Endothelial Cells metabolism, Microvessels metabolism, Receptors, Aryl Hydrocarbon metabolism

Abstract

The expression of aryl hydrocarbon receptor (AhR) transcription factor was detected at transcript level in freshly isolated human brain microvessels and in the hCMEC/D3 human cerebral microvascular endothelial cell line. Recent studies have demonstrated that AhR pathway is able to crosstalk with other pathways such as hypoxia signaling pathway. Therefore, we used the hCMEC/D3 cell line to investigate the potential crosstalk between AhR and hypoxia signaling pathways. First, we performed two different hypoxia-like procedures in hCMEC/D3 cells; namely, exposition of cells to 150 μM deferoxamine or to glucose and oxygen deprivation for 6 h. These two procedures led to hypoxia-inducible factor (HIF)-1α and HIF-2α proteins accumulation together with a significant induction of the two well-known hypoxia-inducible genes VEGF and GLUT-1. Both HIF-1α and -2α functionally mediated hypoxia response in the hCMEC/D3 cells. Then, we observed that a 6 h exposure to 25 nM 2,3,7,8-tetrachlorodibenzo-p-dioxin, a strong AhR ligand, up-regulated CYP1A1 and CYP1B1 expression, and that this effect was AhR dependent. Regarding AhR and hypoxia crosstalk, our experiments revealed that an asymmetric interference between these two pathways effectively occurred in hCMEC/D3 cells: hypoxia pathway interfered with AhR signaling but not the other way around. We studied the putative crosstalk of AhR and hypoxia pathways in hCMEC/D3 human cerebral microvascular endothelial cells. While hypoxia decreased the expression of the two AhR target genes CYP1A1 and CYP1B1, AhR activation results in no change in hypoxia target gene expression. This is the first sign of AhR and hypoxia pathway crosstalk in an in vitro model of the human cerebral endothelium., (© 2014 International Society for Neurochemistry.)

Published

2015

47. [¹¹C]befloxatone brain kinetics is not influenced by Bcrp function at the blood-brain barrier: a PET study using Bcrp TGEM knockout rats.

Author

Hosten B, Boisgard R, Jacob A, Goutal S, Saubaméa B, Dollé F, Scherrmann JM, Cisternino S, and Tournier N

Subjects

ATP Binding Cassette Transporter, Subfamily G, Member 2, ATP-Binding Cassette Transporters genetics, Animals, Male, Positron-Emission Tomography, Rats, Rats, Wistar, ATP Binding Cassette Transporter, Subfamily B, Member 1 metabolism, ATP-Binding Cassette Transporters metabolism, Brain metabolism, Oxazoles pharmacology, Rats, Transgenic metabolism

Abstract

Knockout (KO) animals are useful tools with which to assess the interplay between P-glycoprotein (P-gp; Abcb1) and the breast cancer resistance protein (Bcrp, Abcg2), two major ABC-transporters expressed at the blood-brain barrier (BBB). However, one major drawback of such deficient models is the possible involvement of compensation between transporters. In the present study, P-gp and Bcrp distribution in the brain as well as P-gp expression levels at the BBB were compared between the Bcrp TGEM KO rat model and the wild-type (WT) strain. Therefore, we used confocal microscopy of brain slices and western blot analysis of the isolated brain microvessels forming the BBB. This deficient rat model was used to assess the influence of Bcrp on the brain and peripheral kinetics of its substrate [(11)C]befloxatone using positron emission tomography (PET). The influence of additional P-gp inhibition was tested using elacridar (GF120918) 2 mg/kg in Bcrp KO rats. The distribution pattern of P-gp in the brain as well as P-gp expression levels at the BBB was similar in Bcrp-deficient and WT rats. Brain and peripheral kinetics of [(11)C]befloxatone were not influenced by the lack of Bcrp. Neither was the brain uptake of [(11)C]befloxatone in Bcrp-deficient rats influenced by the inhibition of P-gp. In conclusion, the Bcrp-deficient rat strain, in which we detected no compensatory mechanism or modification of P-gp expression as compared to WT rats, is a suitable model to study Bcrp function separately from that of P-gp at the BBB. However, although selectively transported by BCRP in vitro, our results suggest that [(11)C]befloxatone PET imaging might not be biased by impaired function of this transporter in vivo., (Copyright © 2013 Elsevier B.V. All rights reserved.)

Published

2013

48. A new technique of endothelial graft: the femtosecond and excimer lasers-assisted endothelial keratoplasty (FELEK).

Author

Trinh L, Saubaméa B, Auclin F, Denoyer A, Lai-Kuen R, El Hamdaoui M, Labbé A, Despiau MC, Brignole-Baudouin F, and Baudouin C

Subjects

Corneal Stroma ultrastructure, Endothelium, Corneal ultrastructure, Eye Banks, Humans, Microscopy, Electron, Scanning, Specimen Handling, Tissue Donors, Corneal Diseases surgery, Endothelium, Corneal transplantation, Epikeratophakia methods, Lasers, Excimer therapeutic use

Published

2013

49. Transport of biogenic amine neurotransmitters at the mouse blood-retina and blood-brain barriers by uptake1 and uptake2.

Author

André P, Saubaméa B, Cochois-Guégan V, Marie-Claire C, Cattelotte J, Smirnova M, Schinkel AH, Scherrmann JM, and Cisternino S

Subjects

Algorithms, Animals, Capillaries metabolism, Carrier Proteins metabolism, Cerebral Cortex blood supply, Cerebral Cortex metabolism, Dopamine metabolism, Immunochemistry, Immunohistochemistry, Kidney metabolism, Male, Membrane Transport Proteins metabolism, Mice, Microscopy, Confocal, Neurons metabolism, Polymerase Chain Reaction, RNA biosynthesis, Serotonin metabolism, Tissue Distribution, Biogenic Amines metabolism, Blood-Brain Barrier metabolism, Neurotransmitter Agents metabolism, Retina metabolism

Abstract

Uptake1 and uptake2 transporters are involved in the extracellular clearance of biogenic amine neurotransmitters at synaptic clefts. We looked for them at the blood-brain barrier (BBB) and blood-retina barriers (BRB), where they could be involved in regulating the neurotransmitter concentration and modulate/terminate receptor-mediated effects within the neurovascular unit (NVU). Uptake2 (Oct1-3/Slc22a1-3, Pmat/Slc29a4) and Mate1/Slc47a1 transporters are also involved in the transport of xenobiotics. We used in situ carotid perfusion of prototypic substrates like [(3)H]-1-methyl-4-phenylpyridinium ([(3)H]-MPP(+)), [(3)H]-histamine, [(3)H]-serotonin, and [(3)H]-dopamine, changes in ionic composition and genetic deletion of Oct1-3 carriers to detect uptake1 and uptake2 at the BBB and BRB. We showed that uptake1 and uptake2 are involved in the transport of [(3)H]-dopamine and [(3)H]-MPP(+) at the blood luminal BRB, but not at the BBB. These functional studies, together with quantitative RT-PCR and confocal imaging, suggest that the mouse BBB lacks uptake1 (Net/Slc6a2, Dat/Slc6a3, Sert/Slc6a4), uptake2, and Mate1 on both the luminal and abluminal sides. However, we found evidence for functional Net and Oct1 transporters at the luminal BRB. These heterogeneous transport properties of the brain and retina NVUs suggest that the BBB helps protect the brain against biogenic amine neurotransmitters in the plasma while the BRB has more of a metabolic/endocrine role.

Published

2012

50. Deletion of astroglial connexins weakens the blood-brain barrier.

Author

Ezan P, André P, Cisternino S, Saubaméa B, Boulay AC, Doutremer S, Thomas MA, Quenech'du N, Giaume C, and Cohen-Salmon M

Subjects

Animals, Brain blood supply, Brain growth & development, Brain metabolism, Brain ultrastructure, Cerebrovascular Circulation genetics, Connexin 30, Connexin 43 genetics, Connexins genetics, Gene Deletion, Mice, Mice, Knockout, Microscopy, Confocal, Microscopy, Electron, Transmission, Microvessels growth & development, Microvessels metabolism, Microvessels ultrastructure, Perfusion, Astrocytes metabolism, Astrocytes ultrastructure, Blood-Brain Barrier growth & development, Blood-Brain Barrier metabolism, Blood-Brain Barrier ultrastructure, Connexin 43 physiology, Connexins physiology

Abstract

Astrocytes, the most prominent glial cell type in the brain, send specialized processes named endfeet, which enwrap blood vessels and express a large molecular repertoire dedicated to the physiology of the vascular system. One of the most striking properties of astrocyte endfeet is their enrichment in gap junction protein connexins 43 and 30 (Cx43 and Cx30) allowing for direct intercellular trafficking of ions and small signaling molecules through perivascular astroglial networks. The contribution of astroglial connexins to the physiology of the brain vascular system has never been addressed. Here, we show that Cx43 and Cx30 expression at the level of perivascular endfeet starts from postnatal days 2 and 12 and is fully mature at postnatal days 15 and 20, respectively, indicating that astroglial perivascular connectivity occurs and develops during postnatal blood-brain barrier (BBB) maturation. We demonstrate that mice lacking Cx30 and Cx43 in GFAP (glial fibrillary acidic protein)-positive cells display astrocyte endfeet edema and a partial loss of the astroglial water channel aquaporin-4 and β-dystroglycan, a transmembrane receptor anchoring astrocyte endfeet to the perivascular basal lamina. Furthermore, the absence of astroglial connexins weakens the BBB, which opens upon increased hydrostatic vascular pressure and shear stress. These results demonstrate that astroglial connexins are necessary to maintain BBB integrity.

Published

2012