Generation of Mice with Hepatocyte-Specific Conditional Deletion of Notum

Background

Fine tuning of the Wnt/β-catenin signaling pathway is essential for the proper development and function of the liver. Aberrant activation of this pathway is observed in 20%-40% of hepatocellular carcinomas (HCC). Notum encodes a secreted Wnt deacylase that inhibits Wnt activity and thereby restricts the zone of activation of Wnt/β-catenin signaling. An important role of NOTUM has been described in development in drosophila, planaria and zebrafish, but its role in the mammalian liver is unknown. Notum is required for spatial control of the Wnt/β-catenin signaling in several animal models and the Wnt/β-catenin pathway contributes to liver patterning involved in metabolic zonation. Therefore, Notum may be involved in the liver patterning induced by the Wnt/β-catenin signaling during the adult stage.

Methodology/principal findings

We generated a conditional Notum knockout mouse mutant to study the effect of the deletion of Notum in the liver. We show that Notum is a direct target of the Wnt/β-catenin signaling in the liver. Liver-specific deletion of Notum did not modify liver zonation, but Notum deletion had a long-term effect on mouse physiology. In particular, male mutant mice developed metabolic disorders.

Conclusion

We show that Notum is not a key actor of Wnt/β-catenin-dependent liver patterning of adult mice, but has role in liver glucose homeostasis. Male mice deficient in Notum specifically in the liver develop metabolic dysfunctions implicating Notum in the development of Type 2 diabetes.     

A program package applicable to the detection of overlaps between restriction maps.

A computer program package for the storage, change, and comparison of restriction maps is described. The programs are intended to detect overlaps between relatively short (about 10-40 kb; abbreviations ref.2) maps and to merge the overlapping fragments into large restriction maps. They run on a 16-bit-microcomputer with limited memory and addressing capability. Due to the restricted reliability of restriction maps compared with DNA sequence data a particular storage method was used. The source code of the programs is freely available (+).     

Oncogenes and the mammalian X chromosome

Summary None of the up to now localized and expressed oncogenes maps to the mammalian X chromosome. This fact is discussed in the light of a trans-acting regulation mechanism for oncogenes. Such a specific regulation mechanism is demonstrated here for a qualitative change — i.e., varying timing of DNA-replication — at the putative c-myc gene locus in band 15E of murine T-cell leukemia. In intraspecific hybrids between tumor and non-tumor cells this qualitative change spreads over to all chromosomes 15 of the same cell, irrespective of their origin. This effects is thought to reflect a binary trans-acting regulation mechanism between homologous chromosomal loci. In the past specific chromosomal aberrations have been described in various tumors but none of these aberrations involve the X chromosome. For the mammalian X chromosome where there is usually only one gene copy per cell active the described kind of binary trans-acting regulation between homologous gene loci is rendered impossible.     

The indoleacetic acid-lysine synthetase gene of Pseudomonas syringae subsp. savastanoi induces developmental alterations in transgenic tobacco and potato plants

Summary The iaaL gene of Pseudomonas syringae subsp. savastanoi encodes an indoleacetic acid-lysine synthetase that conjugates lysine to indoleacetic acid. A chimaeric gene consisting of the iaaL coding region under the control of the 35S RNA promoter from cauliflower mosaic virus (35SiaaL) has been used to test if iaaL gene expression leads to morphological alterations in tobacco and potato. Transgenic tobacco plantlets bearing this construct have been shown to synthesize IAA-[¹⁴C]lysine when fed with [¹⁴C]lysine. In late stages of development, their leaves show an increased nastic curvature (epinasty) of the petiole and midvein, a finding suggestive of an abnormal auxin metabolism. The alteration is transmitted to progeny as a dominant Mendelian trait cosegregating with the kanamycin resistance marker. Transgenic potato plants harbouring the construct are also characterised by petiole epinasty. Moreover, 35SiaaL transgenic plants have an increased internode length in potato and decreased root growth in both tobacco and potato. An increased content of IAA-conjugates in leaf blade was found to correlate with the epinastic alterations caused by iaaL gene expression in tobacco leaves. These data provide evidence that IAA conjugation is able to modulate hormone action, suggesting that the widespread endogenous auxin-conjugating activities are of physiological importance.