Slc1a3-2A-CreERT2 mice reveal unique features of Bergmann glia and augment a growing collection of Cre drivers and effectors in the 129S4 genetic background

Scientific reports

2021 Mar 08

Kaczmarczyk, L;Reichenbach, N;Blank, N;Jonson, M;Dittrich, L;Petzold, GC;Jackson, WS;
PMID: 33686166 | DOI: 10.1038/s41598-021-84887-2

Genetic variation is a primary determinant of phenotypic diversity. In laboratory mice, genetic variation can be a serious experimental confounder, and thus minimized through inbreeding. However, generalizations of results obtained with inbred strains must be made with caution, especially when working with complex phenotypes and disease models. Here we compared behavioral characteristics of C57Bl/6-the strain most widely used in biomedical research-with those of 129S4. In contrast to 129S4, C57Bl/6 demonstrated high within-strain and intra-litter behavioral hyperactivity. Although high consistency would be advantageous, the majority of disease models and transgenic tools are in C57Bl/6. We recently established six Cre driver lines and two Cre effector lines in 129S4. To augment this collection, we genetically engineered a Cre line to study astrocytes in 129S4. It was validated with two Cre effector lines: calcium indicator gCaMP5g-tdTomato and RiboTag-a tool widely used to study cell type-specific translatomes. These reporters are in different genomic loci, and in both the Cre was functional and astrocyte-specific. We found that calcium signals lasted longer and had a higher amplitude in cortical compared to hippocampal astrocytes, genes linked to a single neurodegenerative disease have highly divergent expression patterns, and that ribosome proteins are non-uniformly expressed across brain regions and cell types.

A transgenic Alx4-CreER mouse to analyze anterior limb and nephric duct development

Developmental dynamics : an official publication of the American Association of Anatomists

2021 Mar 16

Rockwell, DM;O'Connor, AK;Bentley-Ford, MR;Haycraft, CJ;Croyle, MJ;Brewer, KM;Berbari, NF;Kesterson, RA;Yoder, BK;
PMID: 33728725 | DOI: 10.1002/dvdy.328

Genetic tools to study gene function and the fate of cells in the anterior limb bud are very limited. We describe a transgenic mouse line expressing CreERT2 from the Aristaless-like 4 (Alx4) promoter that induces recombination in the anterior limb. Cre induction at embryonic day 8.5 revealed that Alx4-CreERT2 labeled cells using the mTmG Cre reporter contributed to anterior digits I to III as well as the radius of the forelimb. Cre activity is expanded further along the AP axis in the hindlimb than in the forelimb resulting in some Cre reporter cells contributing to digit IV. Induction at later time points labeled cells that become progressively restricted to more anterior digits and proximal structures. Comparison of Cre expression from the Alx4 promoter transgene with endogenous Alx4 expression reveals Cre expression is slightly expanded posteriorly relative to the endogenous Alx4 expression. Using Alx4-CreERT2 to induce loss of intraflagellar transport 88 (Ift88), a gene required for ciliogenesis, hedgehog signaling, and limb patterning, did not cause overt skeletal malformations. However, the efficiency of deletion, time needed for Ift88 protein turnover, and for cilia to regress may hinder using this approach to analyze cilia in the limb. Alx4-CreERT2 is also active in the mesonephros and nephric duct that contribute to the collecting tubules and ducts of the adult nephron. Embryonic activation of the Alx4-CreERT2 in the Ift88 conditional line results in cyst formation in the collecting tubules/ducts. Overall, the Alx4-CreERT2 line will be a new tool to assess cell fates and analyze gene function in the anterior limb, mesonephros, and nephric duct.

Prss29 Cre recombinase mice are useful to study adult uterine gland function

Genesis (New York, N.Y. : 2000)

2022 Jul 22

Kelleher, AM;Allen, CC;Davis, DJ;Spencer, TE;
PMID: 35866844 | DOI: 10.1002/dvg.23493

All mammalian uteri contain glands in their endometrium that develop only or primarily after birth. In mice, those endometrial glands govern post implantation pregnancy establishment via regulation of blastocyst implantation, stromal cell decidualization, and placental development. Here, we describe a new uterine glandular epithelium (GE) specific Cre recombinase mouse line that is useful for the study of uterine gland function during pregnancy. Utilizing CRISPR-Cas9 genome editing, Cre recombinase was inserted into the endogenous serine protease 29 precursor (Prss29) gene. Both Prss29 mRNA and Cre recombinase activity was specific to the GE of the mouse uterus following implantation, but was absent from other areas of the female reproductive tract. Next, Prss29-Cre mice were crossed with floxed forkhead box A2 (Foxa2) mice to conditionally delete Foxa2 specifically in the endometrial glands. Foxa2 was absent in the glands of the post-implantation uterus, and Foxa2 deleted mice exhibited complete infertility after their first pregnancy. These results establish that Prss29-Cre mice are a valuable resource to elucidate and explore the functions of glands in the adult uterus.

Unexpected failure of rod bipolar cell targeting using L7Cre-2 mice

Experimental eye research

2023 Mar 01

Peperstraete, K;Baes, M;Swinkels, D;
PMID: 36740160 | DOI: 10.1016/j.exer.2023.109406

Utilizing cell type-specific knockout mice has been an excellent tool for decades not only to explore the role of a gene in a specific cell, but also to unravel the underlying mechanism in diseases. To investigate the mechanistic association between dysfunction of the peroxisomal protein multifunctional protein 2 (MFP2) and retinopathy, we generated and phenotyped multiple transgenic mouse models with global or cell type-specific MFP2 deletion. These studies pointed to a potential role of MFP2 specifically in rod bipolar cells. To explore this, we aimed to create rod bipolar cell specific knockout mice of Mfp2 by crossing Mfp2L/L mice with L7Cre-2 mice (also known as PCP2Cre), generating L7-Mfp2-/- mice. L7Cre-2 mice express Cre recombinase under the control of the L7 promoter, which is believed to be exclusively expressed in rod bipolar cells and cerebellar Purkinje cells. Unexpectedly, only sporadic Cre activity was observed in the rod bipolar cells of L7-Mfp2-/- mice, despite efficient Cre recombination in cerebellar Purkinje cells. Moreover, a variable fraction of photoreceptors was targeted, which does not correspond with the supposed specificity of L7Cre-2 mice. These observations indicate that L7Cre-2 mice can be exploited to manipulate Purkinje cells in the cerebellum, whereas they cannot be used to generate rod bipolar cell specific knockout mice. For this aim, we suggest utilizing an independently generated mouse line named BAC-L7-IRES-Cre.

A novel Oprm1-Cre mouse maintains endogenous expression, function and enables detailed molecular characterization of μ-opioid receptor cells

PloS one

2022 Dec 19

Mengaziol, J;Dunn, AD;Salimando, G;Wooldridge, L;Crues-Muncunill, J;Eacret, D;Chen, C;Bland, K;Liu-Chen, LY;Ehrlich, ME;Corder, G;Blendy, JA;
PMID: 36534642 | DOI: 10.1371/journal.pone.0270317

Key targets of both the therapeutic and abused properties of opioids are μ-opioid receptors (MORs). Despite years of research investigating the biochemistry and signal transduction pathways associated with MOR activation, we do not fully understand the cellular mechanisms underlying opioid addiction. Given that addictive opioids such as morphine, oxycodone, heroin, and fentanyl all activate MORs, and current therapies such as naloxone and buprenorphine block this activation, the availability of tools to mechanistically investigate opioid-mediated cellular and behavioral phenotypes are necessary. Therefore, we derived, validated, and applied a novel MOR-specific Cre mouse line, inserting a T2A cleavable peptide sequence and the Cre coding sequence into the MOR 3'UTR. Importantly, this line shows specificity and fidelity of MOR expression throughout the brain and with respect to function, there were no differences in behavioral responses to morphine when compared to wild type mice, nor are there any alterations in Oprm1 gene expression or receptor density. To assess Cre recombinase activity, MOR-Cre mice were crossed with the floxed GFP-reporters, RosaLSLSun1-sfGFP or RosaLSL-GFP-L10a. The latter allowed for cell type specific RNA sequencing via TRAP (Translating Ribosome Affinity Purification) of striatal MOR+ neurons following opioid withdrawal. The breadth of utility of this new tool will greatly facilitate the study of opioid biology under varying conditions.

An Atoh1 CRE knock-in mouse labels motor neurons involved in fine motor control

eNeuro

2021 Jan 14

Ogujiofor, OW;Pop, IV;Espinosa, F;Durodoye, RO;Viacheslavov, ML;Jarvis, R;Landy, MA;Gurumurthy, CB;Lai, HC;
PMID: 33468540 | DOI: 10.1523/ENEURO.0221-20.2021

Motor neurons (MNs) innervating the digit muscles of the intrinsic hand and foot (IH and IF) control fine motor movements. The ability to reproducibly label specifically IH and IF MNs in mice would be a beneficial tool for studies focused on fine motor control. To this end, we find that a CRE knock-in mouse line of Atoh1, a developmentally expressed basic helix-loop-helix (bHLH) transcription factor, reliably expresses CRE-dependent reporter genes in approximately 60% of the IH and IF MNs. We determine that CRE-dependent expression in IH and IF MNs is ectopic because an Atoh1 mouse line driving FLPo recombinase does not label these MNs even though other Atoh1-lineage neurons in the intermediate spinal cord are reliably identified. Furthermore, the CRE-dependent reporter expression is enriched in the IH and IF MN pools with much sparser labeling of other limb-innervating MN pools such as the tibialis anterior, gastrocnemius, quadricep, and adductor. Lastly, we find that ectopic reporter expression begins postnatally and labels a mixture of alpha and gamma-MNs. Altogether, the Atoh1 CRE knock-in mouse strain might be a useful tool to explore the function and connectivity of MNs involved in fine motor control when combined with other genetic or viral strategies that can restrict labeling specifically to the IH and IF MNs. Accordingly, we provide an example of sparse labeling of IH and IF MNs using an intersectional genetic approach.Significance Statement Motor neurons (MNs) of the intrinsic hand and foot (IH and IF) are reproducibly labeled in an ectopic manner postnatally using a CRE knock-in mouse line of the basic helix-loop-helix (bHLH) transcription factor Atoh1, serving as a useful genetic tool for future studies of fine motor control.

Transgenic Mouse Models to Study the Development and Maintenance of the Adrenal Cortex

International journal of molecular sciences

2022 Nov 19

Abou Nader, N;Zamberlam, G;Boyer, A;
PMID: 36430866 | DOI: 10.3390/ijms232214388

The cortex of the adrenal gland is organized into concentric zones that produce distinct steroid hormones essential for body homeostasis in mammals. Mechanisms leading to the development, zonation and maintenance of the adrenal cortex are complex and have been studied since the 1800s. However, the advent of genetic manipulation and transgenic mouse models over the past 30 years has revolutionized our understanding of these mechanisms. This review lists and details the distinct Cre recombinase mouse strains available to study the adrenal cortex, and the remarkable progress total and conditional knockout mouse models have enabled us to make in our understanding of the molecular mechanisms regulating the development and maintenance of the adrenal cortex.

Distinct Modes of Presynaptic Inhibition of Cutaneous Afferents and Their Functions in Behavior.

Neuron

2019 Feb 18

Zimmerman AL, Kovatsis EM, Poszgai RY, Tasnim A, Zhang Q, Ginty DD.
PMID: 30826183 | DOI: 10.1016/j.neuron.2019.02.002

Presynaptic inhibition (PSI) of primary sensory neurons is implicated in controlling gain and acuity in sensory systems. Here, we define circuit mechanisms and functions of PSI of cutaneous somatosensory neuron inputs to the spinal cord. We observed that PSI can be evoked by different sensory neuron populations and mediated through at least two distinct dorsal horn circuit mechanisms. Low-threshold cutaneousafferents evoke a GABAA-receptor-dependent form of PSI that inhibits similar afferent subtypes, whereas small-diameter afferentspredominantly evoke an NMDA-receptor-dependent form of PSI that inhibits large-diameter fibers. Behaviorally, loss of either GABAAreceptors (GABAARs) or NMDA receptors (NMDARs) in primary afferents leads to tactile hypersensitivity across skin types, and loss of GABAARs, but not NMDARs, leads to impaired texture discrimination. Post-weaning age loss of either GABAARs or NMDARs in somatosensory neurons causes systemic behavioral abnormalities, revealing critical roles of two distinct modes of PSI of somatosensory afferents in adolescence and throughout adulthood.

Cardiovascular baroreflex circuit moonlights in sleep control

Neuron

2022 Sep 23

Yao, Y;Barger, Z;Saffari Doost, M;Tso, CF;Darmohray, D;Silverman, D;Liu, D;Ma, C;Cetin, A;Yao, S;Zeng, H;Dan, Y;
PMID: 36170850 | DOI: 10.1016/j.neuron.2022.08.027

Sleep disturbances are strongly associated with cardiovascular diseases. Baroreflex, a basic cardiovascular regulation mechanism, is modulated by sleep-wake states. Here, we show that neurons at key stages of baroreflex pathways also promote sleep. Using activity-dependent genetic labeling, we tagged neurons in the nucleus of the solitary tract (NST) activated by blood pressure elevation and confirmed their barosensitivity with optrode recording and calcium imaging. Chemogenetic or optogenetic activation of these neurons promoted non-REM sleep in addition to decreasing blood pressure and heart rate. GABAergic neurons in the caudal ventrolateral medulla (CVLM)-a downstream target of the NST for vasomotor baroreflex-also promote non-REM sleep, partly by inhibiting the sympathoexcitatory and wake-promoting adrenergic neurons in the rostral ventrolateral medulla (RVLM). Cholinergic neurons in the nucleus ambiguous-a target of the NST for cardiac baroreflex-promoted non-REM sleep as well. Thus, key components of the cardiovascular baroreflex circuit are also integral to sleep-wake brain-state regulation.

Tissue architecture delineates field cancerization in BRAFV600E-induced tumor development

Disease models & mechanisms

2021 Jun 04

Schoultz, E;Johansson, E;Moccia, C;Jakubikova, I;Ravi, N;Liang, S;Carlsson, T;Montelius, M;Patyra, K;Kero, J;Paulsson, K;Fagman, H;Bergo, MO;Nilsson, M;
PMID: 34085700 | DOI: 10.1242/dmm.048887

Cancer cells hijack developmental growth mechanisms but whether tissue morphogenesis and architecture modify tumorigenesis is unknown. Here, we characterized a new mouse model of sporadic thyroid carcinogenesis based on inducible expression of BRAFV600E from the thyroglobulin promoter (TgCreERT2). Spontaneous activation of this Braf-mutant allele due to leaky CRE activity revealed that intrinsic properties of thyroid follicles determined BRAF-mutant cell fate. Papillary thyroid carcinomas developed multicentrically within a normal microenvironment. Each tumor originated from a single follicle that provided a confined space for growth of a distinct tumor type. Lineage tracing revealed oligoclonal tumor development in infancy and early selection of BRAFV600E kinase inhibitor-resistant clones. Somatic mutations were few, non-recurrent, and limited to advanced tumors. Female mice developed larger tumors than males, reproducing the gender difference of human thyroid cancer. These data indicate that BRAFV600E-induced tumorigenesis is spatiotemporally regulated depending on the maturity and heterogeneity of follicles. Moreover, thyroid tissue organization seems to determine whether a BRAF-mutant lineage becomes a cancerized lineage. The sporadic thyroid cancer model provides a new tool to evaluate drug therapy at different stages of tumor evolution.

Highly selective brain-to-gut communication via genetically defined vagus neurons

Neuron

2021 May 25

Tao, J;Campbell, JN;Tsai, LT;Wu, C;Liberles, SD;Lowell, BB;
PMID: 34077742 | DOI: 10.1016/j.neuron.2021.05.004

The vagus nerve innervates many organs, and most, if not all, of its motor fibers are cholinergic. However, no one knows its organizing principles-whether or not there are dedicated neurons with restricted targets that act as "labeled lines" to perform certain functions, including two opposing ones (gastric contraction versus relaxation). By performing unbiased transcriptional profiling of DMV cholinergic neurons, we discovered seven molecularly distinct subtypes of motor neurons. Then, by using subtype-specific Cre driver mice, we show that two of these subtypes exclusively innervate the glandular domain of the stomach where, remarkably, they contact different enteric neurons releasing functionally opposing neurotransmitters (acetylcholine versus nitric oxide). Thus, the vagus motor nerve communicates via genetically defined labeled lines to control functionally unique enteric neurons within discrete subregions of the gastrointestinal tract. This discovery reveals that the parasympathetic nervous system utilizes a striking division of labor to control autonomic function.

The Functional Organization Of The Opioid System In Dorsal Root Ganglion Neurons

The Journal of Pain

2023 Apr 01

Geron, M;Tassou, A;Berg, D;Shuster, A;Liu-Chen, L;Scherrer, G;
| DOI: 10.1016/j.jpain.2023.02.114

Targeting specific opioid receptor types in distinct sensory neurons could lead to safer and more effective treatments against pain. However, the extent to which different DRG neurons that express opioid receptors (MOR, DOR, KOR) innervate distinct organs, and what sensory information is encoded by these neurons, represent long-standing questions in the field. To fill this knowledge gap, we utilized novel knock-in mouse lines in which the DNA recombinases Cre and/or Flp are expressed in opioid receptor-positive DRG neurons. We injected adeno-associated viruses to express tdTomato and analyzed the organization of DRG axon terminals in peripheral tissues using tissue clearing and immunostaining protocols. In hairy skin, we observed circumferential nerve endings around hair follicles that are either MOR+ or DOR+. However, DOR+ circumferential endings were also NFH+ whereas MOR+ circumferential endings were not, suggesting that MOR is expressed by high-threshold mechanoreceptors, while DOR is expressed by low-threshold mechanoreceptors activated by stroking of the skin. In glabrous skin, we found a similar divergent organization, with MOR+ and DOR+ axon terminals co-expressing CRGP and NFH, respectively. In the colon, we observed innervation by both KOR+ and MOR+ axons whereas, in the muscle (soleus) and kidney, we found axons that are either MOR+, DOR+, or KOR+. Remarkably, these MOR+, DOR+, or KOR+ axons innervate different sub-regions within these organs and form distinct nerve-ending structures. Collectively, our findings show that MOR+, DOR+, and KOR+ DRG neurons are expressed in largely non-overlapping DRG neuron types that distinctly innervate tissues and presumably differently contribute to sensory perception. National Institutes of Health grant R01DA044481 New York Stem Cell Foundation.

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	Description
sense Example: Hs-LAG3-sense	Standard probes for RNA detection are in antisense. Sense probe is reverse complent to the corresponding antisense probe.
Intron# Example: Mm-Htt-intron2	Probe targets the indicated intron in the target gene, commonly used for pre-mRNA detection
Pool/Pan Example: Hs-CD3-pool (Hs-CD3D, Hs-CD3E, Hs-CD3G)	A mixture of multiple probe sets targeting multiple genes or transcripts
No-XSp Example: Hs-PDGFB-No-XMm	Does not cross detect with the species (Sp)
XSp Example: Rn-Pde9a-XMm	designed to cross detect with the species (Sp)
O# Example: Mm-Islr-O1	Alternative design targeting different regions of the same transcript or isoforms
CDS Example: Hs-SLC31A-CDS	Probe targets the protein-coding sequence only
EnEm	Probe targets exons n and m
En-Em	Probe targets region from exon n to exon m
Retired Nomenclature
tvn Example: Hs-LEPR-tv1	Designed to target transcript variant n
ORF Example: Hs-ACVRL1-ORF	Probe targets open reading frame
UTR Example: Hs-HTT-UTR-C3	Probe targets the untranslated region (non-protein-coding region) only
5UTR Example: Hs-GNRHR-5UTR	Probe targets the 5' untranslated region only
3UTR Example: Rn-Npy1r-3UTR	Probe targets the 3' untranslated region only
Pan Example: Pool	A mixture of multiple probe sets targeting multiple genes or transcripts

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