Billy Lau scite author profile

Billy Lau

2Publications

29Citation Statements Received

88Citation Statements Given

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Cold Spring Harbor Laboratory

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MECP2 regulates cortical plasticity underlying a learned behavior in adult female mice

Krishnan

Lau

Ewall

et al. 2016

Preprint

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Neurodevelopmental disorders begin with the emergence of inappropriate synaptic connectivity early in life, yet how the sustained disruption of experience-dependent plasticity aggravates symptoms in adulthood is unclear. Here we used pup retrieval learning to assay adult cortical plasticity in a female mouse model of Rett syndrome (MeCP2 het ). We show that auditory cortical plasticity and retrieval learning are impaired in MeCP2 het . Specifically, normal MECP2 expression in the adult auditory cortex is required for efficient retrieval learning. In wild-type mice, cohabitation with a mother and her pups triggered transient changes to auditory cortical inhibitory networks, including elevated levels of the GABA-synthesizing enzyme GAD67. However, MeCP2 het further exhibited increased expression of parvalbumin (PV) and perineuronal nets (PNNs), events thought to suppress plasticity at the closure of critical periods and in adult learning. Averting these events with genetic and pharmacological manipulations of the GABAergic network restored retrieval behavior. We propose that adult retrieval learning triggers a transient episode of inhibitory plasticity in the auditory cortex that is dysregulated in MeCP2 het . This window of heightened sensitivity to social sensory cues reveals a role of MeCP2 mutations in facilitating adult plasticity that is distinct from their effects on early development.

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Changes in HOXB6 homeodomain protein structure and localization during human epidermal development and differentiation

Kömüves¹,

Shen²,

Kwong³

et al. 2000

Dev. Dyn.

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HOX homeodomain proteins are master developmental regulators, which are now thought to function as transcription factors by forming cooperative DNA binding complexes with PBX or other protein partners. Although PBX proteins exhibit regulated subcellular local-ization and function in the nucleus in other tissues , little data exists on HOX and PBX protein localization during skin development. We now show that the HOXB6 protein is expressed in the suprabasal layer of the early developing epider-mis and throughout the upper layers of late fetal and adult human skin. HOXB6 signal is cytoplas-mic throughout fetal epidermal development, but substantially nuclear in normal adult skin. HOXB6 protein is also partially nuclear in hyper-proliferative skin conditions, but appears to be cytoplasmic in basal and squamous cell carcino-mas. Although all three PBX genes are expressed in fetal epidermis, none of the three PBX proteins exhibit nuclear co-localization with HOXB6 in either fetal or adult epidermis. RNA and protein data suggest that a truncated HOXB6 protein , lacking the homeodomain, is expressed in undifferentiated keratinocytes and that the full-length protein is induced by differentiation. GFP-fusion proteins were used to demonstrate that the full-length HOXB6 protein is localized to the nucleus while the truncated protein is largely cytoplasmic. Taken together, these data suggest that during epidermal development the truncated HOXB6 isoform may function by a mechanism other than as DNA binding protein, and that most of the nuclear, homeodomain-containing HOXB6 protein does not utilize PBX proteins as DNA binding partners in the skin. Published 2000 Wiley-Liss, Inc. †

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Billy Lau

MECP2 regulates cortical plasticity underlying a learned behavior in adult female mice

Changes in HOXB6 homeodomain protein structure and localization during human epidermal development and differentiation

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