Juan Pedro Martinez-Barbera scite author profile

During early mouse development the homeobox gene Hesx1 is expressed in prospective forebrain tissue, but later becomes restricted to Rathke's pouch, the primordium of the anterior pituitary gland. Mice lacking Hesx1 exhibit variable anterior CNS defects and pituitary dysplasia. Mutants have a reduced prosencephalon, anopthalmia or micropthalmia, defective olfactory development and bifurcations in Rathke's pouch. Neonates exhibit abnormalities in the corpus callosum, the anterior and hippocampal commissures, and the septum pellucidum. A comparable and equally variable phenotype in humans is septo-optic dysplasia (SOD). We have cloned human HESX1 and screened for mutations in affected individuals. Two siblings with SOD were homozygous for an Arg53Cys missense mutation within the HESX1 homeodomain which destroyed its ability to bind target DNA. These data suggest an important role for Hesx1/HESX1 in forebrain, midline and pituitary development in mouse and human.

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The Cell and Molecular Basis of Mechanical, Cold, and Inflammatory Pain

Abrahamsen

Zhao

Asante

et al. 2008

Science

438

443

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Peripheral pain pathways are activated by a range of stimuli. We used diphtheria toxin to kill all mouse postmitotic sensory neurons expressing the sodium channel Nav1.8. Mice showed normal motor activity and low-threshold mechanical and acute noxious heat responses but did not respond to noxious mechanical pressure or cold. They also showed a loss of enhanced pain responses and spontaneous pain behavior upon treatment with inflammatory insults. In contrast, nerve injury led to heightened pain sensitivity to thermal and mechanical stimuli indistinguishable from that seen with normal littermates. Pain behavior correlates well with central input from sensory neurons measured electrophysiologically in vivo. These data demonstrate that Na(v)1.8-expressing neurons are essential for mechanical, cold, and inflammatory pain but not for neuropathic pain or heat sensing.

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Craniopharyngioma

Müller

Merchant

Warmuth‐Metz

et al. 2019

Nat Rev Dis Primers

348

414

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Sox2+ Stem/Progenitor Cells in the Adult Mouse Pituitary Support Organ Homeostasis and Have Tumor-Inducing Potential

Andoniadou¹,

Matsushima

Gharavy³

et al. 2013

Cell Stem Cell

272

403

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Sox2(+) adult mouse pituitary cells can self-renew and terminally differentiate in vitro, but their physiological role in vivo and possible contribution to oncogenesis remain largely unknown. Using genetic lineage tracing, we show here that the Sox2(+) cell compartment of both the embryonic and adult pituitary contains stem/progenitor cells that are able to differentiate into all hormone-producing lineages and contribute to organ homeostasis during postnatal life. In addition, we show that targeted expression of oncogenic β-catenin in Sox2(+) cells gives rise to pituitary tumors, but, unexpectedly, the tumor mass is not derived from the Sox2(+) mutation-sustaining cells, suggesting a paracrine role of Sox2(+) cells in pituitary oncogenesis. Our data therefore provide in vivo evidence of a role for Sox2(+) stem/progenitor cells in long-term physiological maintenance of the adult pituitary, and highlight an unexpected non-cell-autonomous role for these cells in the induction of pituitary tumors.

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The Homeobox Gene Hesx1 Is Required in the Anterior Neural Ectoderm for Normal Forebrain Formation

Martinez-Barbera¹,

Rodríguez²,

Beddington³

2000

Developmental Biology

272

339

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The homeobox gene Hesx1 is expressed in the anterior visceral endoderm (AVE), anterior axial mesendoderm (AME), and anterior neural ectoderm (ANE) during early mouse embryogenesis. Previous studies have shown that Hesx1 is essential for normal murine forebrain development. Hesx1 homozygous mutants showed variable forebrain truncations ranging from mild to severe lack of forebrain tissue. Here, we have investigated the requirement of Hesx1 in the AVE, AME, and ANE using chimeric and in situ hybridization analyses to understand better the nature of the forebrain defects. Chimeric embryos composed predominantly of Hesx1(+/+) cells developing within Hesx1(-/-) visceral endoderm showed no evident forebrain abnormalities. In contrast, injection of Hesx1(-/-) ES cells into wild-type blastocysts gave rise to chimeras with forebrain defects similar to those observed in the Hesx1(-/-) mutants. RNA in situ hybridization analysis showed that the AVE and AME markers Cerrl, Lim1, and Shh were normally expressed in 6.5- and 7.5-dpc Hesx1(-/-) mutants. Expression of the ANE markers Six3 and Rax/Rx was also unperturbed in the Hesx1(-/-) mutants from late gastrula to late headfold stages. However, transcripts for both genes were markedly reduced by the early somite stage, about 24 h after Hesx1 is first expressed in the ANE. Therefore, Hesx1 seems to be required autonomously in the ANE for normal forebrain formation.

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