Generation of an Fgf9 conditional null allele

The fibroblast growth factor (FGF) family consists of 22 widely expressed regulatory polypeptides and controls a broad spectrum of cellular processes. Accumulating data show that FGF9 plays important roles both in embryogenesis and in adult tissue homeostasis. Ablation of Fgf9 alleles leads to lethality at the neonatal stage mainly due to malformations of the lung, as well as causing male-to-female sex reversal. To circumvent the neonatal lethality resulting from disruption of the Fgf9 gene, which hinders further characterization of the role of FGF9 in adult tissue function and homeostasis, we generated an Fgf9 conditional null allele for spatiotemporal- and tissue-specific disruption of Fgf9. Using gene targeting in mouse embryonic stem (ES) cells, we introduced two loxP sites flanking exon 1 in the Fgf9 allele, which encodes 93 amino acid residues at the N-terminal of FGF9. Our results indicate that the Fgf9 conditional null allele is a true conditional null that encodes wildtype activity and reverts to a null allele after recombination mediated by the Cre recombinase.     

Generation of a conditional null allele for Dmp1 in mouse

Dentin matrix protein1 (DMP1), highly conserved in humans and mice, is highly expressed in teeth, the skeleton, and to a lesser extent in nonskeletal tissues such as brain, kidney, and salivary gland. Pathologically, DMP1 is associated with several forms of cancers and with tumor-induced osteomalacia. Conventional disruption of the murine Dmp1 gene results in defects in dentin in teeth and in the skeleton, including hypophosphatemic rickets, and abnormalities in phosphate homeostasis. Human DMP1 mutations are responsible for the condition known as autosomal recessive hypophosphatemic rickets. For better understanding of the roles of DMP1 in different tissues at different stages of development and in pathological conditions, we generated Dmp1 floxed mice in which loxP sites flank exon 6 that encodes for over 80% of DMP1 protein. We demonstrate that Cre-mediated recombination using Sox2-Cre, a Cre line expressed in epiblast during early embryogenesis, results in early deletion of the gene and protein. These homozygous Cre-recombined null mice display an identical phenotype to conventional null mice. This animal model will be useful to reveal distinct roles of DMP1 in different tissues at different ages.     

Generation of mice with a conditional null allele of the Jagged2 gene

The Notch signaling pathway is an evolutionarily‐conserved intercellular signaling mechanism, and mutations in its components disrupt embryonic development in many organisms and cause inherited diseases in humans. The Jagged2 (Jag2) gene, which encodes a ligand for Notch pathway receptors, is required for craniofacial, limb, and T cell development. Mice homozygous for a Jag2 null allele die at birth from cleft palate, precluding study of Jag2 function in postnatal and adult mice. We have generated a Jag2 conditional null allele by flanking the first two exons of the Jag2 gene with loxP sites. Cre‐mediated deletion of the Jag2^flox allele generates the Jag2^del2 allele, which behaves genetically as a Jag2 null allele. This Jag2 conditional null allele will enable investigation of Jag2 function in a variety of tissue‐specific contexts. genesis 48:390–393, 2010. © 2010 Wiley‐Liss, Inc.     

Generation of a Bmp2 conditional null allele

Bone morphogenetic proteins (Bmp's) are known to play many important roles in embryogenesis. In addition, recent data from human genetic studies has revealed that Bmp's also have important functions in maintenance of the adult phenotype and aging. The original Bmp2 germline null allele resulted in lethality at embryonic day 7.0-10.5 due to malformation of the amnion/chorion and cardiac malformations. Because the early embryonic lethality of the Bmp2 germline null allele hinders further investigation into Bmp2 function at later stages, we generated a Bmp2 conditional null allele. Using gene targeting in mouse embryonic stem (ES) cells, we introduced LoxP sites upstream and downstream of Bmp2 exon 3 that encodes the mature peptide. Our results indicate that the Bmp2 conditional null allele is a true conditional null that encodes wildtype activity and reverts to a null allele after cre recombinase-induced recombination.     

Generation of a conditional null allele of jumonji

The jumonji (jmj) gene plays important roles in multiple organ development in mouse, including cardiovascular development. Since JMJ is expressed widely during mouse development, it is essential that conditional knockout approaches be employed to ablate JMJ in a tissue-specific manner to identify the cell lineage specific roles of JMJ. In this report, we describe the establishment of a jmj conditional null allele in mice by generating a loxP-flanked (floxed) jmj allele, which allows the in vivo ablation of jmj via Cre recombinase-mediated deletion. Gene targeting was used to introduce loxP sites flanking exon 3 of the jmj allele to mouse embryonic stem cells. Our results indicate that the jmj floxed allele converts to a null allele in a heart-specific manner when embryos homozygous for the floxed jmj allele and carrying the alpha-myosin heavy chain promoter-Cre transgene were analyzed by Southern and Northern blot analyses. Therefore, this mouse line harboring the conditional jmj null allele will provide a valuable tool for deciphering the tissue and cell lineage specific roles of JMJ.     

Generation of a conditional Ppap2b/Lpp3 null allele

Lpp3, formerly known as Pap2b, is a lipid phosphohydrolase enzyme. Some of its substrates and products are lipids with potent biological and signaling activities such as phosphatidic acid, lysophosphatidic acid, sphingosine-1-phosphate, diacylglycerol, sphingosine, and ceramide. Lpp3 is dynamically expressed during development and is widely distributed in adult tissues. Targeted inactivation of Lpp3 gene (Ppap2b) in the mouse results in embryonic lethality because of defects in extraembryonic vascular development and gastrulation. To study the participation of Lpp3 later in development and in specific cell lineages we generated a conditional allele of Ppap2b. This was accomplished by flanking critical exons, responsible for its catalytic activity with loxP sites. A generalized Cre-mediated recombination of this allele yielded a phenotype fundamentally identical to our previously reported Ppap2b null allele.     

Generation of a conditional null allele of NADPH oxidase activator 1 (NOXA1)

NADPH oxidase complexes are multiprotein assemblies that generate reactive oxygen species in a variety of mammalian tissues. The canonical phagocytic oxidase consists of a heterodimeric, enzymatic core comprised of the transmembrane proteins, CYBB andCYBA and is regulated, in part, by an “organizing” function of NCF1 and an “activating” activity of NCF2. In contexts outside of the phagocyte, these regulatory functions may be encoded not only by NCF1 and NCF2, but also alternatively by their respective paralogues, NOXO1 and NOXA1. To allow tissue‐specific dissection of Noxa1 function in mouse, we have generated an allele of Noxa1 suitable for conditional inactivation. Moreover, by crossing Noxa1 conditional allele carriers to B6.129S4‐Meox2^tm1(Cre)Sor/J mice, we have generated first, Noxa1‐null heterozygotes, and ultimately, Noxa1‐null homozygotes. Through the thoughtful use of tissue‐specific, Cre‐expressing mouse strains, the Noxa1 conditional allele will offer insight into the roles of NOXA1 in the variety of tissues in which it is expressed. genesis 48:568–575, 2010. © 2010 Wiley‐Liss, Inc.     

Generation of a Twist1 conditional null allele in the mouse

Twist1 is the mouse ortholog of TWIST1, the human gene mutated in Saethre-Chotzen syndrome. Previously, a Twist1 null allele was generated by gene targeting in mouse embryonic stem cells. Twist1 heterozygous mice develop polydactyly and a craniofacial phenotype similar to Saethre-Chotzen patients. Mice homozygous for the Twist1 null allele die around embryonic day 11.5 (E11.5) with cranial neural tube closure and vascular defects, hindering in vivo studies of Twist1 function at later stages of development. Here, we report the generation of a Twist1 conditional null allele in mice that functions like a wild-type allele but can be converted to a null allele upon Cre-mediated recombination.     

Generation of a Mig-6 conditional null allele

Mitogen-inducible gene 6 (Mig-6) is a stress-induced gene that serves as a negative regulator of epidermal growth factor (EGF) signaling and acts as a tumor suppressor. Ablation of Mig-6 results in a significant percentage of embryo lethality as well as abnormalities in multiple tissues. To understand the physiological roles of Mig-6, a conditional null allele, Mig-6(f/f) was generated by introducing LoxP sites that flank exons 2 and 4. The Mig-6(f/f) allele was validated by generating recombined Mig-6(-/-) mice using the Zp3-Cre system. The conditional null allele was confirmed by assaying for Mig-6 gene expression in liver, lung, uterus, and skin. The recombined Mig-6(-/-) mice developed pathological changes, such as degenerative joint diseases and skin hyperplasia similar to the previously reported Mig-6 germline null allele. In addition, these mice also had enlarged uteri with endometrial hyperplasia. In summary, this Mig-6(f/f) mouse is a useful tool for the functional study of the Mig-6 gene in a tissue-specific fashion.     

Generation of a conditional null allele of Lbx1

The homeobox gene Lbx1 not only plays critical roles in myogenesis and neurogenesis during embryonic development but is also expressed in activated satellite cells of adult mice. To address the potential postnatal functions of Lbx1, we generated conditional Lbx1-null mice using the Cre-loxP system. We generated a mouse in which Exon 2 of Lbx1 was floxed (Lbx1flox/flox), followed by cross-breeding between the Lbx1flox/flox mouse and either a transgenic mouse where a tamoxifen-inducible Cre-recombinase (Cre) was ubiquitously expressed, or a Myf5Cre mouse where Cre was inserted into the Myf5 locus. In both Lbx1-null mouse lines generated, Pax3-expressing limb muscle precursor cells were seriously reduced during embryonic development and eventually the limb extensor muscles were lost after birth. Since the conditional Lbx1-null mice generated were viable for a prolonged time, they will be useful in the investigation of Lbx1 function throughout the lifespan of the mouse.     

Floxed allele for conditional inactivation of the voltage-gated sodium channel beta1 subunit Scn1b

The voltage-gated sodium channel gene Scn1b encodes the auxiliary subunit beta1, which is widely distributed in neurons and glia of the central and peripheral nervous systems, cardiac myocytes, skeletal muscle myocytes, and neuroendocrine cells. We showed previously that the Scn1b null mutation results in a complex and severe phenotype that includes retarded growth, seizures, ataxia, and death by postnatal day 21. We generated a floxed allele of Scn1b by inserting loxP sites surrounding the second coding exon. Ubiquitous deletion of the floxed exon by Cre recombinase using CMV-Cre-transgenic mice produced the Scn1b(del) allele. The null phenotype of Scn1b(del) homozygotes is indistinguishable from that of Scn1b nulls and confirms the invivo inactivation of Scn1b. Conditional inactivation ofthe floxed allele will make it possible to circumvent the lethality that results from complete loss of this gene, such that the physiological role of Scn1b in specific cell types and/or specific developmental time points can be investigated.     

Generation of mice with conditional null allele for GdX/Ubl4A

GdX (also named Ubl4A) is a house-keeping gene located on the X chromosome and encodes a protein harboring an ubiquitin-like domain in human and mouse. Although identified in 1988, the function of GdX remains unknown. To elucidate the role of GdX in vivo, we generated a conditional GdX knockout mouse in which Exon 2 was flanked by two loxP sites. We obtained viable and fertile mice with homozygous GdX(flox/flox) or GdX(flox/Y) allele. Germ-line transmission was confirmed by crossing the mouse bearing conditionally targeted allele with an EIIα-Cre transgenic mouse. GdX was successfully depleted in tissues of EIIα-Cre-GdX-null mice. GdX(-/-) and GdX(-/Y) mice are viable and exhibit normal development compared with wild-type littermates within 6 months during our observation. We also observed that GdX knockout male mice were functionally normal in the reproductive system where Ubl4B was specifically expressed. GdX(flox/flox) and GdX(flox/Y) conditional mice provide a tool for further tissue-specific function analysis of the GdX protein under different conditions.