Thomas L. Wise scite author profile

The insulin-like growth factor II (IGFII) is a mitogen for a number of cell types in vitro and is required for normal embryonic growth. It has been hypothesized that overexpression of IGF2 is responsible for the increased growth and tumor predisposition in patients with Beckwith-Wiedemann syndrome. Association of increased levels of IGFII with increased growth is also incorporated in a current model for the evolution of Igf2 imprinting. Different experimental approaches to increasing IGFII levels in the mouse have yielded different results with respect to its effects on growth, viability, and tumor development. To investigate the consequences of IGf2 overexpression in the embryonic period, without alterations in the activity of other genes, we produced transgenic mice that express the Igf2 gene under the control of the H19 enhancers. Transgene expression in the embryonic period had no significant effect on the overall size of the embryos, but was associated with perinatal lethality in homozygous, and some heterozygous, mice. A large fraction of homozygous mice also developed a cleft palate. These findings indicate that overexpression of Igf2 can have an adverse effect on viability in the absence of a pronounced effect on overall body growth. The results are consistent with the view that growth and perinatal viability are affected differently by Igf2 overexpression in endodermal and mesodermal tissues.

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Delayed Onset of Igf2-Induced Mammary Tumors in Igf2r Transgenic Mice

Wise

Pravtcheva

2006

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The insulin-like growth factor-II (IGF-II) receptor (IGF2R) regulates the level or activity of numerous proteins, including factors that control growth and differentiation. Frequent loss or inactivation of this receptor in a diverse group of tumors indicates that it may act as a tumor suppressor, but it is not known which functions of this receptor are selected against in the tumors. Lysosomal targeting and degradation of the growth-promoting IGF-II has been proposed as a mechanism for the tumor suppressor effects of IGF2R. As a genetic test of this hypothesis in vivo, we have produced Igf2r transgenic mice that ubiquitously express the transgene and have crossed these mice with mice that develop mammary tumors as a consequence of Ig f2 overexpression. Our findings indicate that the presence of the Igf2r transgene delays mammary tumor onset and decreases tumor multiplicity in Igf 2 transgenic mice. These findings are relevant to human tumors and preneoplastic conditions accompanied by altered IGF2 expression.

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Changes in insulin‐like growth factor signaling alter phenotypes in Fragile X Mice

Wise

2016

Genes Brain and Behavior

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Fragile X syndrome (FXS) is an inherited form of intellectual disability that is usually caused by expansion of a polymorphic CGG repeat in the 5' untranslated region of the X-linked FMR1 gene, which leads to hypermethylation and transcriptional silencing. Two non-neurological phenotypes of FXS are enlarged testes and connective tissue dysplasia, which could be caused by alterations in a growth factor signaling pathway. FXS patients also frequently have autistic-like symptoms, suggesting that the signaling pathways affected in FXS may overlap with those affected in autism. Identifying these pathways is important for both understanding the effects of FMR1 inactivation and developing treatments for both FXS and autism. Here we show that decreasing the levels of the insulin-like growth factor (Igf) receptor 1 corrects a number of phenotypes in the mouse model of FXS, including macro-orchidism, and that increasing the levels of IGF2 exacerbates the seizure susceptibility phenotype. These results suggest that the pathways altered by the loss of the FMR1-encoded protein (FMRP) may overlap with the pathways affected by changes in Igf signaling or that one or more of the proteins that play a role in Igf signaling could interact with FMRP. They also indicate a new set of potential targets for drug treatment of FXS and autism spectrum disorders.

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Disruption of Apc10/Doc1 in Three Alleles of Oligosyndactylism

Pravtcheva

Wise

2001

Genomics

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Thomas L. Wise

Metastasizing mammary carcinomas in H19 enhancers-Igf2 transgenic mice

Perinatal lethality in H19 enhancers‐Igf2 transgenic mice

Delayed Onset of Igf2-Induced Mammary Tumors in Igf2r Transgenic Mice

Changes in insulin‐like growth factor signaling alter phenotypes in Fragile X Mice

Disruption of Apc10/Doc1 in Three Alleles of Oligosyndactylism

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