Vasanta Subramanian scite author profile

Cdx1 is expressed along the embryonic axis from day 7.5 postcoitum until day 12, by which time the anterior limit of expression has regressed from the hindbrain level to the forelimb bud region. To assign a functional role for Cdx1 in murine embryonic development, we have inactivated the gene via homologous recombination. Viable fertile homozygous mutant mice were obtained that show anterior homeotic transformations of vertebrae. These abnormalities were concomitant with posterior shifts of Hox gene expression domains in the somitic mesoderm. The presence of putative Cdx1-binding sites in Hox gene control regions as well as in vitro transactivation of Hoxa-7 indicates a direct regulation.

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Structural and molecular insights into the mechanism of action of human angiogenin-ALS variants in neurons

Thiyagarajan

et al. 2012

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Mutations in angiogenin (ANG), a member of the ribonuclease A superfamily, are associated with amyotrophic lateral sclerosis (ALS; sporadic and familial) and Parkinson's disease. We have previously shown that ANG is expressed in neurons during neuro-ectodermal differentiation, and that it has both neurotrophic and neuroprotective functions. Here we report the atomic resolution structure of native ANG and 11 ANG-ALS variants. We correlate the structural changes to the effects on neuronal survival and the ability to induce stress granules in neuronal cell lines. ANG-ALS variants that affect the structure of the catalytic site and either decrease or increase the RNase activity affect neuronal survival. Neuronal cell lines expressing the ANG-ALS variants also lack the ability to form stress granules. Our structure–function studies on these ANG-ALS variants are the first to provide insights into the cellular and molecular mechanisms underlying their role in ALS.

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Human angiogenin is a neuroprotective factor and amyotrophic lateral sclerosis associated angiogenin variants affect neurite extension/pathfinding and survival of motor neurons

Subramanian

Crabtree

Acharya

2007

Human Molecular Genetics

121

101

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Amyotrophic lateral sclerosis (ALS) is a late onset neurodegenerative disorder affecting upper and lower motor neurons (MNs). The molecular mechanisms underlying ALS are poorly understood. Mutations in SOD1 is one of the known causes of ALS but occur only in a very small number of cases of ALS. Interestingly, mutations in human angiogenin (hANG), a member of the ribonuclease A (RNase A) superfamily known to be involved in neovascularization, have been recently reported in patients with ALS, but the effects of these mutations on MN differentiation and survival has not been investigated. We have used the well-characterized pluripotent P19 embryonal carcinoma (EC) cell culture model of neuro-ectodermal differentiation to study the effects of hANG-ALS variants on MN differentiation and survival. Here we report that P19 EC cells induced to differentiate in the presence of hANG and hANG-ALS-associated variants internalize the wild-type and variant proteins. The P19 EC cells differentiate to form neurons but the ability of the neurites to extend and make contacts with neighbouring neurites is compromised when treated with the hANG-ALS variants. In addition, hANG-ALS variants also have a cytotoxic effect on MNs leading to their degeneration. hANG was able to protect neurons from hypoxia-induced cell death, but the variants of hANG implicated in ALS lacked the neuroprotective activity. Our findings show that ANG plays an important role in neurite extension/pathfinding and survival providing a causal link between mutations in hANG and ALS.

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Characterization of Human Angiogenin Variants Implicated in Amyotrophic Lateral Sclerosis

et al. 2007

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Human angiogenin (ANG), the first member of the angiogenin family (from the pancreatic ribonuclease A superfamily) to be identified, is an angiogenic factor that induces neovascularization. It has received much attention due to its involvement in the growth of tumors and its elevated expression level in pancreatic and several other cancers. Recently the biological role of ANG has been shown to extend to the nervous system. Mutations in ANG have been linked with familial as well as sporadic forms of amyotrophic lateral sclerosis (ALS), a fatal neurodegenerative disorder characterized by selective destruction of motor neurons. Furthermore, mouse angiogenin-1 has been shown to be expressed in the developing nervous system and during the neuronal differentiation of pluripotent stem cells. We have now characterized the seven variants of ANG reported in ALS patients with respect to the known biochemical properties of ANG and further studied the biological properties of three of these variants. Our results show that the ribonucleolytic activity of six of the seven ANG-ALS implicated variants is significantly reduced or lost and some variants also show altered thermal stability. We report a significant reduction in the cell proliferative and angiogenic activities of the three variants that we chose to investigate further. Our studies on the biochemical and structural features of these ANG variants now form the basis for further investigations to determine their role(s) in ALS.Amyotrophic lateral sclerosis (ALS) 1 is a fatal neurodegenerative disorder characterized by selective destruction of motor neurons (1). In the past decade, a small number of genes involved in the etiology of the disease have been identified (for a recent review see ref 2). The best studied of these is SOD1 (3), the gene for Cu/Zn superoxide dismutase. More than a hundred SOD1 mutations have now been linked with ALS, and motor neuron death from many of these mutations has been shown to result from a toxic gain of function rather than loss of dismutase activity. However, mutations in SOD1 account for only 1-2% of all cases of ALS and 20% of the familial cases. Some of the other proteins implicated in ALS are the vesicle-trafficking protein VAPB (4); ALSIN, a putative guanine nucleotide factor for GTPase (5); and senataxin (6). In addition, vascular endothelial growth factor (VEGF), an angiogenic factor that plays an important role in motor neuron survival, has been linked with ALS (7-10). However, the causes and molecular mechanisms underlying ALS are still largely unclear, and effective therapies do not appear to be imminent. Angiogenin (ANG), which encodes an angiogenic protein, was recently identified as a candidate susceptibility gene for ALS in the Irish and Scottish population by Greenway et al. (11). In a further study of over 2500 individuals from five independent populations from northern Europe and North America, Greenway et al. (12) found seven missense mutations (Figure 1) in 11 unrelated individuals with sporadic ALS and in f...

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