Z Chen scite author profile

To investigate the potential biological role(s) of the PLZF gene, discovered as a fusion with the RARA locus in a patient with acute promyelocytic leukemia harboring a t(11;17) chromosomal translocation, we have isolated its murine homologue (mPLZF) and studied its patterns of developmental expression. The levels of mPLZF mRNAs increased perinatally in the liver, heart, and kidney, but with the exception of the heart, they were either absent or very low in the adult tissues. In situ analysis of mPLZF expression in mouse embryos between 7.0 and 10.5 days of development revealed that mPLZF mRNAs and proteins were coexpressed in spatially restricted and temporally dynamic patterns in the central nervous system. In the hindbrain region, a segmental pattern of expression correlated with the development of the rhombomeres. From 9.0 days of development, starting first in rhombomeres 3 and 5, there was an ordered down-regulation of expression in the center of each rhombomere, so that 1 day later elevated levels of mPLZF mRNAs and proteins were restricted to cells surrounding the rhombomeric boundaries. The chicken homologue of the PLZF gene, which we have also cloned, demonstrated a similar segmental pattern of expression in the hindbrain. To date, PLZF represents the only example of a transcription factor with elevated expression at rhombomeric boundaries. The high degree of evolutionary conservation between the patterns ofPLZF expression during mammalian and avian central nervous system development suggests that it has an important functional role in the regionalization of the vertebrate hindbrain, potentially regulating boundary cell interactions.

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Deregulation of HOX genes by DNMT3A and MLL mutations converges on BMI1

Sun

Zhu

et al. 2016

Leukemia

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A natural marmoset model of genetic generalized epilepsy

Yang

Chen

Wang

et al. 2021

Preprint

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SummaryAs a common neurological disease, epilepsy has been extensively studied. Efforts have been made on rodent and other animal models to reveal the pathogenic mechanisms of epilepsy and develop new drugs as treatment. However, the features of current epilepsy models cannot fully mimic different kinds of epilepsy in human, asking for non-human primates models of epilepsy. The common marmoset (Callithrix jacchus) is a New World monkey that is widely used to study brain function. Here, we show a natural marmoset model of generalized epilepsy. In this unique marmoset family, generalized epilepsy was successfully induced by handling operation in some individuals. We mapped the marmoset family with handling-sensitive epilepsy and found that epileptic marmoset had an autosomal dominant genetic predisposition. Those marmosets were more sensitive to epilepsy inducers pentylenetetrazol (PTZ). By electrocorticogram (ECoG) recording, we detected epileptic discharge in marmoset with history of seizures. However, there was no significant change in the overall structure of epileptic marmoset brain. In summary, we report a family of marmosets with generalized seizures induced by handling operation. This epileptic marmoset family provides insights to better understand the mechanism of generalized epilepsy and helps to develop new therapeutic methods.Short summaryDespite the rodent and other animal models on epilepsy, a common neurological disease, the understanding of the pathogenic mechanisms of epilepsy and treatment are yet to be advanced., Non-human primates are good experimental animals for modelling neurological disease. Here we report a common marmoset family with generalized epilepsy induced by handling stimulation. We mapped the epileptic marmoset family and found that epilepsy had a genetic predisposition. The present report deals in detail with the phenotypes and characteristics of epileptic marmosets. This natural marmoset reflect epilepsy model will help to better understand the mechanism of epilepsy and develop new therapeutic methods.

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Z Chen

Expression of the zinc-finger gene PLZF at rhombomere boundaries in the vertebrate hindbrain.

Deregulation of HOX genes by DNMT3A and MLL mutations converges on BMI1

A natural marmoset model of genetic generalized epilepsy

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