Proceedings of the National Academy of Sciences of the United States of America, Jul 26, 2017
Changes in gene expression patterns represent an essential source of evolutionary innovation. A s... more Changes in gene expression patterns represent an essential source of evolutionary innovation. A striking case of neofunctionalization is the acquisition of neuronal specificity by immune formyl peptide receptors (Fprs). In mammals, Fprs are expressed by immune cells, where they detect pathogenic and inflammatory chemical cues. In rodents, these receptors are also expressed by sensory neurons of the vomeronasal organ, an olfactory structure mediating innate avoidance behaviors. Here we show that two gene shuffling events led to two independent acquisitions of neuronal specificity by Fprs. The first event targeted the promoter of a V1R receptor gene. This was followed some 30 million years later by a second genomic accident targeting the promoter of a V2R gene. Finally, we show that expression of a vomeronasal Fpr can reverse back to the immune system under inflammatory conditions via the production of an intergenic transcript linking neuronal and immune Fpr genes. Thus, three hijacki...
Neuronal pattern separation is thought to enable the brain to disambiguate sensory stimuli with o... more Neuronal pattern separation is thought to enable the brain to disambiguate sensory stimuli with overlapping features, thereby extracting valuable information. In the olfactory system, it remains unknown whether pattern separation acts as a driving force for sensory discrimination and the learning thereof. We found that overlapping odor-evoked input patterns to the mouse olfactory bulb (OB) were dynamically reformatted in the network on the timescale of a single breath, giving rise to separated patterns of activity in an ensemble of output neurons, mitral/tufted (M/T) cells. Notably, the extent of pattern separation in M/T assemblies predicted behavioral discrimination performance during the learning phase. Furthermore, exciting or inhibiting GABAergic OB interneurons, using optogenetics or pharmacogenetics, altered pattern separation and thereby odor discrimination learning in a bidirectional way. In conclusion, we propose that the OB network can act as a pattern separator facilitat...
In mammals, olfactory perception is based on the combinatorial activation of G protein-coupled re... more In mammals, olfactory perception is based on the combinatorial activation of G protein-coupled receptors. Identifying the full repertoire of receptors activated by a given odorant in vivo, a quest that has been hampered for over 20 years by technical difficulties, would represent an important step in deciphering the rules governing chemoperception. We found that odorants induced a fast and reversible concentration-dependent decrease in the transcription of genes corresponding to activated receptors in intact mice. On the basis of this finding, we developed a large-scale transcriptomic approach to uncover receptor-ligand pairs in vivo. We identified the mouse and rat odorant receptor signatures corresponding to specific odorants. Finally, we found that this approach, which can be used for species for which no genomic sequence is available, is also applicable to non-vertebrate species such as Drosophila.
Variations in gene expression patterns represent a powerful source of evolutionary innovation. In... more Variations in gene expression patterns represent a powerful source of evolutionary innovation. In a rodent living about 70 million years ago, a genomic accident led an immune formyl peptide receptor (FPR) gene to hijack a vomeronasal receptor regulatory sequence. This gene shuffling event forced an immune pathogen sensor to transition into an olfactory chemoreceptor, which thus moved from sensing the internal world to probing the outside world. We here discuss the evolution of the FPR gene family, the events that led to their neofunctionalization in the vomeronasal organ and the functions of immune and vomeronasal FPRs.
Schizophrenia is a severely debilitating neurodevelopmental disorder. Establishing a causal link ... more Schizophrenia is a severely debilitating neurodevelopmental disorder. Establishing a causal link between circuit dysfunction and particular behavioral traits that are relevant to schizophrenia is crucial to shed new light on the mechanisms underlying the pathology. We studied an animal model of the human 22q11 deletion syndrome, the mutation that represents the highest genetic risk of developing schizophrenia. We observed a desynchronization of hippocampal neuronal assemblies that resulted from parvalbumin interneuron hypoexcitability. Rescuing parvalbumin interneuron excitability with pharmacological or chemogenetic approaches was sufficient to restore wild-type-like CA1 network dynamics and hippocampal-dependent behavior during adulthood. In conclusion, our data provide insights into the network dysfunction underlying schizophrenia and highlight the use of reverse engineering to restore physiological and behavioral phenotypes in an animal model of neurodevelopmental disorder.
The building of the topographic map in the mammalian olfactory bulb is explained by a model based... more The building of the topographic map in the mammalian olfactory bulb is explained by a model based on two axes along which sensory neurons are guided: one dorso-ventral and the other antero-posterior. This latter axis relies on specific expression levels of Neuropilin 1 (Nrp1). To evaluate the role played by this receptor in this process, we used an in vivo genetic approach to decrease or suppress it in specific neuronal populations and at different time points during axonal targeting. We observed, in neurons that express either the M71 or the M72 odorant receptors, that the inactivation of Nrp1 leads to two distinct wiring alterations, whose incidence depends on the time at which Nrp1 expression is altered: first, a surprising dorsal shift of the M71 and M72 glomeruli that often fuse with their contralateral counterparts, and second, the formation of anteriorized glomeruli. The two phenotypes are partly recapitulated in mice lacking the Nrp1 ligand Semaphorin 3A (Sema3A), and in mic...
In the mouse, most members of the FPR receptor family are expressed by vomeronasal sensory neuron... more In the mouse, most members of the FPR receptor family are expressed by vomeronasal sensory neurons. The neural circuitry corresponding to this class of chemical sensors is unknown. Taking advantage of the presence of FPR-rs3 on both vomeronasal dendrites and axonal fibers, we visualized the distribution of sensory cells expressing this member of the FPR family, and their corresponding axonal projections in the olfactory bulb. We found a rostrocaudal gradient of receptor choice frequency in the vomeronasal sensory neuroepithelium, and observed a convergence of FPR-rs3 axons into multiple, linked and deeply located glomeruli. These were homogenously innervated, and spatially restricted to the basal portion of the rostral accessory olfactory bulb. This organization, reminiscent of the one that characterizes axonal projections of V1R-expressing neurons, supports a role played by these receptors in the perception of semiochemicals.
Stimulation of the Fas (APO-1, CD95) receptor, which is present on a variety of cells, usually tr... more Stimulation of the Fas (APO-1, CD95) receptor, which is present on a variety of cells, usually triggers a process of programmed cell death. Systemic injection of anti-Fas antibody into mice leads to fulminant liver destruction resulting from massive hepatocyte apoptosis, and to rapid death. Hepatocytes bear Fas but do not express Bcl-2, a protein that plays, in a number of conditions, a protective role against apoptosis. We have generated mice whose liver expresses Bcl-2 as the result of bcl-2 transgene placed under the control of the hepatocyte-specific alpha1-anti-trypsin gene promoter, but is otherwise not distinguishable from that of normal mice. These mice display a marked to almost total resistance to liver damage induced by anti-Fas antibody injection. This protective effect of Bcl-2 occurs in the absence of significant variations, in the stimulated livers, in the level of expression of other proteins also involved in resistance or sensitivity to apoptosis, namely Bcl-x, Bax,...
CD44 is a polymorphic membrane glycoprotein which has several isoforms generated by alternative s... more CD44 is a polymorphic membrane glycoprotein which has several isoforms generated by alternative splicing and post-translational modifications (Stamenkovic et al. 1991; Screaton et al. 1992). While the CD44H or the standard isoform is widely expressed on both ...
The vertebrate olfactory bulb is a remarkably organized neuronal structure,in which hundreds of f... more The vertebrate olfactory bulb is a remarkably organized neuronal structure,in which hundreds of functionally different sensory inputs are organized into a highly stereotyped topographical map. How this wiring is achieved is not yet understood. Here, we show that the olfactory bulb topographical map is modified in adenylyl cyclase 3 (adenylate cyclase 3)-deficient mice. In these mutants, axonal projection targets corresponding to specific odorant receptors are disorganized, are no longer exclusively innervated by functionally identical axonal projections and shift dramatically along the anteroposterior axis of the olfactory bulb. Moreover, the cyclase depletion leads to the prevention of neuropilin 1 (Nrp1) expression in olfactory sensory neuron axonal projections. Taken together, our data point to a major role played by a crucial element of the odorant-induced transduction cascade, adenylyl cyclase 3, in the targeting of olfactory sensory neuron axons towards the brain. This mechani...
Proceedings of the National Academy of Sciences of the United States of America, Jul 26, 2017
Changes in gene expression patterns represent an essential source of evolutionary innovation. A s... more Changes in gene expression patterns represent an essential source of evolutionary innovation. A striking case of neofunctionalization is the acquisition of neuronal specificity by immune formyl peptide receptors (Fprs). In mammals, Fprs are expressed by immune cells, where they detect pathogenic and inflammatory chemical cues. In rodents, these receptors are also expressed by sensory neurons of the vomeronasal organ, an olfactory structure mediating innate avoidance behaviors. Here we show that two gene shuffling events led to two independent acquisitions of neuronal specificity by Fprs. The first event targeted the promoter of a V1R receptor gene. This was followed some 30 million years later by a second genomic accident targeting the promoter of a V2R gene. Finally, we show that expression of a vomeronasal Fpr can reverse back to the immune system under inflammatory conditions via the production of an intergenic transcript linking neuronal and immune Fpr genes. Thus, three hijacki...
Neuronal pattern separation is thought to enable the brain to disambiguate sensory stimuli with o... more Neuronal pattern separation is thought to enable the brain to disambiguate sensory stimuli with overlapping features, thereby extracting valuable information. In the olfactory system, it remains unknown whether pattern separation acts as a driving force for sensory discrimination and the learning thereof. We found that overlapping odor-evoked input patterns to the mouse olfactory bulb (OB) were dynamically reformatted in the network on the timescale of a single breath, giving rise to separated patterns of activity in an ensemble of output neurons, mitral/tufted (M/T) cells. Notably, the extent of pattern separation in M/T assemblies predicted behavioral discrimination performance during the learning phase. Furthermore, exciting or inhibiting GABAergic OB interneurons, using optogenetics or pharmacogenetics, altered pattern separation and thereby odor discrimination learning in a bidirectional way. In conclusion, we propose that the OB network can act as a pattern separator facilitat...
In mammals, olfactory perception is based on the combinatorial activation of G protein-coupled re... more In mammals, olfactory perception is based on the combinatorial activation of G protein-coupled receptors. Identifying the full repertoire of receptors activated by a given odorant in vivo, a quest that has been hampered for over 20 years by technical difficulties, would represent an important step in deciphering the rules governing chemoperception. We found that odorants induced a fast and reversible concentration-dependent decrease in the transcription of genes corresponding to activated receptors in intact mice. On the basis of this finding, we developed a large-scale transcriptomic approach to uncover receptor-ligand pairs in vivo. We identified the mouse and rat odorant receptor signatures corresponding to specific odorants. Finally, we found that this approach, which can be used for species for which no genomic sequence is available, is also applicable to non-vertebrate species such as Drosophila.
Variations in gene expression patterns represent a powerful source of evolutionary innovation. In... more Variations in gene expression patterns represent a powerful source of evolutionary innovation. In a rodent living about 70 million years ago, a genomic accident led an immune formyl peptide receptor (FPR) gene to hijack a vomeronasal receptor regulatory sequence. This gene shuffling event forced an immune pathogen sensor to transition into an olfactory chemoreceptor, which thus moved from sensing the internal world to probing the outside world. We here discuss the evolution of the FPR gene family, the events that led to their neofunctionalization in the vomeronasal organ and the functions of immune and vomeronasal FPRs.
Schizophrenia is a severely debilitating neurodevelopmental disorder. Establishing a causal link ... more Schizophrenia is a severely debilitating neurodevelopmental disorder. Establishing a causal link between circuit dysfunction and particular behavioral traits that are relevant to schizophrenia is crucial to shed new light on the mechanisms underlying the pathology. We studied an animal model of the human 22q11 deletion syndrome, the mutation that represents the highest genetic risk of developing schizophrenia. We observed a desynchronization of hippocampal neuronal assemblies that resulted from parvalbumin interneuron hypoexcitability. Rescuing parvalbumin interneuron excitability with pharmacological or chemogenetic approaches was sufficient to restore wild-type-like CA1 network dynamics and hippocampal-dependent behavior during adulthood. In conclusion, our data provide insights into the network dysfunction underlying schizophrenia and highlight the use of reverse engineering to restore physiological and behavioral phenotypes in an animal model of neurodevelopmental disorder.
The building of the topographic map in the mammalian olfactory bulb is explained by a model based... more The building of the topographic map in the mammalian olfactory bulb is explained by a model based on two axes along which sensory neurons are guided: one dorso-ventral and the other antero-posterior. This latter axis relies on specific expression levels of Neuropilin 1 (Nrp1). To evaluate the role played by this receptor in this process, we used an in vivo genetic approach to decrease or suppress it in specific neuronal populations and at different time points during axonal targeting. We observed, in neurons that express either the M71 or the M72 odorant receptors, that the inactivation of Nrp1 leads to two distinct wiring alterations, whose incidence depends on the time at which Nrp1 expression is altered: first, a surprising dorsal shift of the M71 and M72 glomeruli that often fuse with their contralateral counterparts, and second, the formation of anteriorized glomeruli. The two phenotypes are partly recapitulated in mice lacking the Nrp1 ligand Semaphorin 3A (Sema3A), and in mic...
In the mouse, most members of the FPR receptor family are expressed by vomeronasal sensory neuron... more In the mouse, most members of the FPR receptor family are expressed by vomeronasal sensory neurons. The neural circuitry corresponding to this class of chemical sensors is unknown. Taking advantage of the presence of FPR-rs3 on both vomeronasal dendrites and axonal fibers, we visualized the distribution of sensory cells expressing this member of the FPR family, and their corresponding axonal projections in the olfactory bulb. We found a rostrocaudal gradient of receptor choice frequency in the vomeronasal sensory neuroepithelium, and observed a convergence of FPR-rs3 axons into multiple, linked and deeply located glomeruli. These were homogenously innervated, and spatially restricted to the basal portion of the rostral accessory olfactory bulb. This organization, reminiscent of the one that characterizes axonal projections of V1R-expressing neurons, supports a role played by these receptors in the perception of semiochemicals.
Stimulation of the Fas (APO-1, CD95) receptor, which is present on a variety of cells, usually tr... more Stimulation of the Fas (APO-1, CD95) receptor, which is present on a variety of cells, usually triggers a process of programmed cell death. Systemic injection of anti-Fas antibody into mice leads to fulminant liver destruction resulting from massive hepatocyte apoptosis, and to rapid death. Hepatocytes bear Fas but do not express Bcl-2, a protein that plays, in a number of conditions, a protective role against apoptosis. We have generated mice whose liver expresses Bcl-2 as the result of bcl-2 transgene placed under the control of the hepatocyte-specific alpha1-anti-trypsin gene promoter, but is otherwise not distinguishable from that of normal mice. These mice display a marked to almost total resistance to liver damage induced by anti-Fas antibody injection. This protective effect of Bcl-2 occurs in the absence of significant variations, in the stimulated livers, in the level of expression of other proteins also involved in resistance or sensitivity to apoptosis, namely Bcl-x, Bax,...
CD44 is a polymorphic membrane glycoprotein which has several isoforms generated by alternative s... more CD44 is a polymorphic membrane glycoprotein which has several isoforms generated by alternative splicing and post-translational modifications (Stamenkovic et al. 1991; Screaton et al. 1992). While the CD44H or the standard isoform is widely expressed on both ...
The vertebrate olfactory bulb is a remarkably organized neuronal structure,in which hundreds of f... more The vertebrate olfactory bulb is a remarkably organized neuronal structure,in which hundreds of functionally different sensory inputs are organized into a highly stereotyped topographical map. How this wiring is achieved is not yet understood. Here, we show that the olfactory bulb topographical map is modified in adenylyl cyclase 3 (adenylate cyclase 3)-deficient mice. In these mutants, axonal projection targets corresponding to specific odorant receptors are disorganized, are no longer exclusively innervated by functionally identical axonal projections and shift dramatically along the anteroposterior axis of the olfactory bulb. Moreover, the cyclase depletion leads to the prevention of neuropilin 1 (Nrp1) expression in olfactory sensory neuron axonal projections. Taken together, our data point to a major role played by a crucial element of the odorant-induced transduction cascade, adenylyl cyclase 3, in the targeting of olfactory sensory neuron axons towards the brain. This mechani...
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