Genomic structure, chromosomal localization, and expression pattern of the human LIM-homeobox3 (LHX 3) gene

Lhx3 is a LIM-homeobox protein essential for pituitary development in mice. The human homologue gene spans 7.2 kb and contains 7 exons, including two alternatively spliced first exons. This structure encodes two distinct protein isoforms, LHX3a and LHX3b, that differ exclusively in their amino-terminus. The LHX3 gene was localized at 9q34.2-34.3. The predicted protein sequence is highly homologous to other known Lhx3 proteins, the highest degree of homology being in the conserved domains. The highest expression of LHX3 was found in pituitary gland, spinal cord, and lung. Among different pituitary cell types, corticotrophs appear to express preferentially LHX3b isoform, suggesting a distinct role of the b-form in the development of this cell lineage. Although the human LHX3 gene structure would provide a ground for clarification of the molecular basis of complete anterior pituitary deficiency, we were unable to identify any mutation in the LHX3 gene of 46 such patients.     

A p57 conditional mutant allele that allows tracking of p57‐expressing cells

p57^Kip2 (p57 ) is a maternally expressed imprinted gene regulating growth arrest which belongs to the CIP/KIP family of cyclin‐dependent kinase inhibitors. While initially identified as a cell cycle arrest protein through inhibition of cyclin and cyclin‐dependent kinase complexes, p57 activity has also been linked to differentiation, apoptosis, and senescence. In addition, p57 has recently been shown to be involved in tumorigenesis and cell fate decisions in stem cells. Yet, p57 function in adult tissues remains poorly characterized due to the perinatal lethality of p57 knock‐out mice. To analyze p57 tissue‐specific activity, we generated a conditional mouse line (p57^FL‐ILZ/+ ) by flanking the coding exons 2–3 by LoxP sites. To track p57‐expressing or mutant cells, the p57^FL‐ILZ allele also contains an IRES‐linked β‐galactosidase reporter inserted in the 3′ UTR of the gene. Here, we show that the β‐galactosidase reporter expression pattern recapitulates p57 tissue specificity during development and in postnatal mice. Furthermore, we crossed the p57^FL‐ILZ/+ mice with PGK‐Cre mice to generate p57^cKO‐ILZ/+ animals with ubiquitous loss of p57. p57^cKO‐ILZ/+ mice display developmental phenotypes analogous to previously described p57 knock‐outs. Thus, p57^FL‐ILZ/+ is a new genetic tool allowing expression and functional conditional analyses of p57.     

Generation of a tamoxifen inducible Tnnt2MerCreMer knock‐in mouse model for cardiac studies

Tnnt2, encoding thin‐filament sarcomeric protein cardiac troponin T, plays critical roles in heart development and function in mammals. To develop an inducible genetic deletion strategy in myocardial cells, we generated a new Tnnt2:MerCreMer (Tnnt2^MerCreMer/+) knock‐in mouse. Rosa26 reporter lines were used to examine the specificity and efficiency of the inducible Cre recombinase. We found that Cre was specifically and robustly expressed in the cardiomyocytes at embryonic and adult stages following tamoxifen induction. The knock‐in allele on Tnnt2 locus does not impact cardiac function. These results suggest that this new Tnnt2^MerCreMer/+ mouse could be applied towards the temporal genetic deletion of genes of interests in cardiomyocytes with Cre‐LoxP technology. The Tnnt2^MerCreMer/+ mouse model also provides a useful tool to trace myocardial lineage during development and repair after cardiac injury. genesis 53:377–386, 2015. © 2015 Wiley Periodicals, Inc.     

Generation of a Magoh conditional allele in mice

Magoh encodes a core component of the exon junction complex (EJC), which binds mRNA and regulates mRNA metabolism. Magoh is highly expressed in proliferative tissues during development. EJC components have been implicated in several developmental disorders including TAR syndrome, Richieri–Costa–Pereira syndrome, and intellectual disability. Existing germline null Magoh mice are embryonic lethal as homozygotes and perinatal lethal as heterozygotes, precluding detailed analysis of embryonic and postnatal functions. Here, we report the generation of a new genetic tool to dissect temporal and tissue‐specific roles for Magoh in development and adult homeostasis. This Magoh conditional allele has two loxP sites flanking the second exon. Ubiquitous Cre‐mediated deletion of the floxed allele in a heterozygous mouse (Magoh^del/+) causes 50% reduction of both Magoh mRNA and protein. Magoh^del/+ mice exhibit both microcephaly and hypopigmentation, thus phenocopying germline haploinsufficient Magoh mice. Using Emx1‐Cre, we further show that conditional Magoh deletion in neural progenitors during embryonic development also causes microcephaly. We anticipate this novel conditional allele will be a valuable tool for assessing tissue‐specific roles for Magoh in mammalian development and postnatal processes. genesis 52:752–758, 2014. © 2014 Wiley Periodicals, Inc.     

Expression of Lhx6 in the adult and developing mouse retina

PurposeTo investigate the expression patterns of LIM Homeobox 6 (Lhx6) in the adult and developing mouse retina.MethodsThe Lhx6-GFP knock-in allele was used to activate constitutive expression of a GFP reporter in Lhx6 expressing cells. Double labeling with GFP and retinal markers in the mouse retina at postnatal day 56 (P56) was performed to identify the cell types expressing Lhx6. To determine the neuronal cell types that express Lhx6, double labeling with GFP and various retinal markers was employed in the differentiating retina at P7 and P15.ResultsGFP + Lhx6 lineage cells were determined in Brn3a + retinal ganglion cells (RGCs), ChAT + amacrine cells (ACs), and Islet-class LIM-homeodomain 1 (Isl1+) ACs in the mouse retina at P56. In the ganglion cell layer (GCL), Lhx6 was expressed in Brn3a + RGCs but not Brn3b + RGCs at P15. Moreover, in the inner nuclear layer (INL), Lhx6 was not expressed in Bhlhb5+ ACs at P15. However, Lhx6 was weakly expressed in Glyt1+ ACs and Pax6+ ACs, and strongly expressed in Isl1+ and ChAT + ACs at P15.ConclusionLhx6 was expressed in RGCs and ACs in both the adult and developing mouse retina.     

Generation of Pecam1 endothelial specific dual reporter mouse model

Endothelial cells are specialized epithelium lining the interior surface of vessels and play fundamental roles in angiogenesis, vascular permeability, and immune response. To identify endothelial cells in vivo, we constructed a Pecam1^{nlacZ‐H2B‐GFP/+} knock‐in mouse model in which the endothelial cells are labeled by nuclear LacZ (nlacZ) expression. When Pecam1^{nlacZ‐H2B‐GFP/+} mice are bred with germline Cre deleter mice, Pecam1^H2B‐GFP/+ line is created with native nuclear GFP (H2B‐GFP) expression in the endothelium of various organs. This dual reporter mouse provides us with a powerful genetic tool for definitive identification of endothelial cells and monitoring this important cell population throughout development, homeostasis, and disease conditions in mammals.     

Generation of B6‐Ddx4em1(CreERT2)Utr,a novel CreERT2 knock‐in line,for germ cell lineage by CRISPR/Cas9

Germ cell development is essential for maintaining reproduction in animals. In postpubertal females, oogenesis is a highly complicated event for producing fertilizable oocytes. It starts when dormant primordial oocytes undergo activation to become growing oocytes. In postpubertal males, spermatogenesis is a differentiation process for producing sperm from spermatogonial stem cells. To obtain full understanding of the molecular mechanisms underlying germ cell development, the Cre/loxP system has been widely applied for conditional knock‐out mouse studies. In this study, we established a novel knock‐in mouse line, B6‐Ddx4 ^{em1(CreERT2)Utr}, which expresses CreERT2 recombinase under the control of the endogenous DEAD‐box helicase 4 (Ddx4) gene promoter. Ddx4 was specifically expressed in both female and male germ cell lineages. We mated the CreERT2 mice with R26GRR mice, expressing enhanced green fluorescent protein (EGFP) and tDsRed before and after Cre recombination. We found tDsRed signals in the testes and ovaries of tamoxifen‐treated B6‐Ddx4 ^{em1(CreERT2)Utr}::R26GRR mice, but not in untreated mice. Immunostaining of their ovaries clearly showed that Cre recombination occurred in all oocytes at every follicle stage. We also found 100% Cre recombination efficiency in male germ cells via the progeny test. In summary, our results indicate that B6‐Ddx4 ^{em1(CreERT2)Utr} is beneficial for studying female and male germ cell development.