The Journal of experimental medicine
Li, L;Wyler, SC;León-Mercado, LA;Xu, B;Oh, Y;Swati, ;Chen, X;Wan, R;Arnold, AG;Jia, L;Wang, G;Nautiyal, K;Hen, R;Sohn, JW;Liu, C;
PMID: 35796804 | DOI: 10.1084/jem.20212307
Triptans are a class of commonly prescribed antimigraine drugs. Here, we report a previously unrecognized role for them to suppress appetite in mice. In particular, frovatriptan treatment reduces food intake and body weight in diet-induced obese mice. Moreover, the anorectic effect depends on the serotonin (5-HT) 1B receptor (Htr1b). By ablating Htr1b in four different brain regions, we demonstrate that Htr1b engages in spatiotemporally segregated neural pathways to regulate postnatal growth and food intake. Moreover, Htr1b in AgRP neurons in the arcuate nucleus of the hypothalamus (ARH) contributes to the hypophagic effects of HTR1B agonists. To further study the anorexigenic Htr1b circuit, we generated Htr1b-Cre mice. We find that ARH Htr1b neurons bidirectionally regulate food intake in vivo. Furthermore, single-nucleus RNA sequencing analyses revealed that Htr1b marks a subset of AgRP neurons. Finally, we used an intersectional approach to specifically target these neurons (Htr1bAgRP neurons). We show that they regulate food intake, in part, through a Htr1bAgRP→PVH circuit.
Biological Psychiatry Global Open Science
Guerri, L;Dobbs, L;da Silva e Silva, D;Meyers, A;Ge, A;Lecaj, L;Djakuduel, C;Islek, D;Hipolito, D;Martinez, A;Shen, P;Marietta, C;Garamszegi, S;Capobianco, E;Jiang, Z;Schwandt, M;Mash, D;Alvarez, V;Goldman, D;
| DOI: 10.1016/j.bpsgos.2022.08.010
Background A salient effect of addictive drugs is to hijack the dopamine reward system, an evolutionarily conserved driver of goal-directed behavior and learning. Reduced dopamine type-II receptor (D2R) availability in the striatum is an important pathophysiological mechanism for addiction that is both consequential and causal for other molecular, cellular, and neuronal network differences etiologic for this disorder. Here, we sought to identify gene expression changes attributable to innate low expression of the Drd2 gene in the striatum and specific to striatal indirect medium spiny neurons (iMSNs). Methods Cre-conditional, Translating Ribosome Affinity Purification (TRAP) was used to purify and analyze the translatome (ribosome-bound mRNA) of iMSNs from mice with low/heterozygous or wild-type Drd2 expression in iMSNs. Complementary electrophysiological recordings and gene expression analysis of postmortem brain tissue from human cocaine users were performed. Results Innate low expression of Drd2 in iMSNs led to differential expression of genes involved in GABA and cAMP signaling, neural growth, lipid metabolism, neural excitability, and inflammation. Creb1 was identified as a likely upstream regulator, among others. In human brain, expression of FXYD2, a modulatory subunit of the Na/K pump, was negatively correlated with DRD2 mRNA expression. In iMSN-TRAP-Drd2HET mice, increased Cartpt and reduced S100a10 (p11) expression recapitulated previous observations in cocaine paradigms. Electrophysiology experiments supported a higher GABA tone in iMSN-Drd2HET mice. Conclusion This study provides strong molecular evidence that in addiction inhibition by the indirect pathway is constitutively enhanced through neural growth and increased GABA signaling.
Yu, XD;Zhu, Y;Sun, QX;Deng, F;Wan, J;Zheng, D;Gong, W;Xie, SZ;Shen, CJ;Fu, JY;Huang, H;Lai, HY;Jin, J;Li, Y;Li, XM;
PMID: 36446933 | DOI: 10.1038/s41593-022-01200-8
Anxiety-like behaviors in mice include social avoidance and avoidance of bright spaces. Whether these features are distinctly regulated is unclear. We demonstrate that in mice, social and anxiogenic stimuli, respectively, increase and decrease serotonin (5-HT) levels in basal amygdala (BA). In dorsal raphe nucleus (DRN), 5-HT∩vGluT3 neurons projecting to BA parvalbumin (DRN5-HT∩vGluT3-BAPV) and pyramidal (DRN5-HT∩vGluT3-BAPyr) neurons have distinct intrinsic properties and gene expression and respond to anxiogenic and social stimuli, respectively. Activation of DRN5-HT∩vGluT3→BAPV inhibits 5-HT release via GABAB receptors on serotonergic terminals in BA, inducing social avoidance and avoidance of bright spaces. Activation of DRN5-HT∩vGluT3→BA neurons inhibits two subsets of BAPyr neurons via 5-HT1A receptors (HTR1A) and 5-HT1B receptors (HTR1B). Pharmacological inhibition of HTR1A and HTR1B in BA induces avoidance of bright spaces and social avoidance, respectively. These findings highlight the functional significance of heterogenic inputs from DRN to BA subpopulations in the regulation of separate anxiety-related behaviors.
Proceedings of the National Academy of Sciences of the United States of America
Jean, P;Wong Jun Tai, F;Singh-Estivalet, A;Lelli, A;Scandola, C;Megharba, S;Schmutz, S;Roux, S;Mechaussier, S;Sudres, M;Mouly, E;Heritier, AV;Bonnet, C;Mallet, A;Novault, S;Libri, V;Petit, C;Michalski, N;
PMID: 37339214 | DOI: 10.1073/pnas.2221744120
Functional molecular characterization of the cochlea has mainly been driven by the deciphering of the genetic architecture of sensorineural deafness. As a result, the search for curative treatments, which are sorely lacking in the hearing field, has become a potentially achievable objective, particularly via cochlear gene and cell therapies. To this end, a complete inventory of cochlear cell types, with an in-depth characterization of their gene expression profiles right up to their final differentiation, is indispensable. We therefore generated a single-cell transcriptomic atlas of the mouse cochlea based on an analysis of more than 120,000 cells on postnatal day 8 (P8), during the prehearing period, P12, corresponding to hearing onset, and P20, when cochlear maturation is almost complete. By combining whole-cell and nuclear transcript analyses with extensive in situ RNA hybridization assays, we characterized the transcriptomic signatures covering nearly all cochlear cell types and developed cell type-specific markers. Three cell types were discovered; two of them contribute to the modiolus which houses the primary auditory neurons and blood vessels, and the third one consists in cells lining the scala vestibuli. The results also shed light on the molecular basis of the tonotopic gradient of the biophysical characteristics of the basilar membrane that critically underlies cochlear passive sound frequency analysis. Finally, overlooked expression of deafness genes in several cochlear cell types was also unveiled. This atlas paves the way for the deciphering of the gene regulatory networks controlling cochlear cell differentiation and maturation, essential for the development of effective targeted treatments.
Investigative Ophthalmology & Visual Science
Gibson, S;Shen, G;Pitale, PM;Park, YH;
METHODS : 8-week wild-type mice were used to determine gene (_Htr1b_) expression. RNAscope _in situ_ hybridization (ISH) was performed on retinal cryosections and imaged using confocal microscopy. Whole field flash electroretinograms (ERGs) were used to record scotopic and photopic amplitudes in 22 mice (8 _Htr1b_-/-; 8 _Htr1b_+/-; 6 WT). Positive scotopic threshold response (pSTR), b-wave, and a-wave amplitudes were recorded. Visual behavior was evaluated in _Htr1b_-/- mice and controls by assessing the scotopic and photopic optokinetic response. Gratings of variable spatial frequency or contrast were presented to evaluate spatial frequency threshold and contrast sensitivity threshold, respectively. We performed retinal histology and _in vivo_ SD-OCT imaging on 8-week _Htr1b_-/- animals to quantify retinal layer thickness. Retinal layers (GCL, IPL, INL, OPL, and ONL) were measured as a percentage of total retinal thickness and compared to age and sex-matched wild-type controls.RGC numbers were determined from whole-mount retinas which were prepared and visualized with confocal microscopy. RBPMS-positive cells were counted semi-automatically using an ImageJ extension. Total cell density was normalized to image size.