Yotam Menuchin-Lasowski scite author profile

In the developing retina, as in other regions of the CNS, neural progenitors give rise to individual cell types during discrete temporal windows. Pax6 is expressed in retinal progenitor cells (RPCs) throughout the course of retinogenesis, and has been shown to be required during early retinogenesis for generation of most early-born cell types. In this study, we examined the function of Pax6 in postnatal mouse retinal development. We found that Pax6 is essential for the generation of late-born interneurons, while inhibiting photoreceptor differentiation. Generation of bipolar interneurons requires Pax6 expression in RPCs, while Pax6 is required for the generation of glycinergic, but not for GABAergic or non-GABAergic-non-glycinergic (nGnG) amacrine cell subtypes. In contrast, overexpression of either full-length Pax6 or its 5a isoform in RPCs induces formation of cells with nGnG amacrine features, and suppresses generation of other inner retinal cell types. Moreover, overexpression of both Pax6 variants prevents photoreceptor differentiation, most likely by inhibiting Crx expression. Taken together, these data show that Pax6 acts in RPCs to control differentiation of multiple late-born neuronal cell types.

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The stage-dependent roles of Ldb1 and functional redundancy with Ldb2 in mammalian retinogenesis

Gueta

David

Cohen

et al. 2016

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The Lim domain-binding proteins are key co-factor proteins that assemble with LIM domains of the LMO/LIM-HD family to form functional complexes that regulate cell proliferation and differentiation. Using conditional mutagenesis and comparative phenotypic analysis, we analyze the function of Ldb1 and Ldb2 in mouse retinal development, and demonstrate overlapping and specific functions of both proteins. Ldb1 interacts with Lhx2 in the embryonic retina and both Ldb1 and Ldb2 play a key role in maintaining the pool of retinal progenitor cells. This is accomplished by controlling the expression of the Vsx2 and Rax, and components of the Notch and Hedgehog signaling pathways. Furthermore, the Ldb1/Ldb2-mediated complex is essential for generation of earlyborn photoreceptors through the regulation of Rax and Crx. Finally, we demonstrate functional redundancy between Ldb1 and Ldb2. Ldb1 can fully compensate the loss of Ldb2 during all phases of retinal development, whereas Ldb2 alone is sufficient to sustain activity of Lhx2 in both early-and late-stage RPCs and in Müller glia. By contrast, loss of Ldb1 disrupts activity of the LIM domain factors in neuronal precursors. An intricate regulatory network exists that is mediated by Ldb1 and Ldb2, and promotes RPC proliferation and multipotency; it also controls specification of mammalian retina cells.

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SARS-CoV-2 infects and replicates in photoreceptor and retinal ganglion cells of human retinal organoids

et al. 2022

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A mesh microelectrode array for non-invasive electrophysiology within neural organoids

McDonald

Brauns

et al. 2023

Biosensors and Bioelectronics

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A mesh microelectrode array for non-invasive electrophysiology within neural organoids

McDonald

Brauns

et al. 2020

Preprint

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Organoids are emerging in vitro models of human physiology. Neural models require the evaluation of functional activity of single cells and networks, which is best measured by microelectrode arrays. The characteristics of organoids clash with existing in vitro or in vivo microelectrode arrays. With inspiration from implantable mesh electronics and growth of organoids on polymer scaffolds, we fabricated suspended hammock-like mesh microelectrode arrays for neural organoids. We have demonstrated the growth of organoids enveloping these meshes, their cultivation for at least nine months, and could measure spontaneous electrical activity within organoids. Our concept should enable a new class of microelectrode arrays for in vitro models of three-dimensional electrically active tissue.

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Zeb2 regulates the balance between retinal interneurons and Müller glia by inhibition of BMP–Smad signaling

Menuchin-Lasowski

Dagan

Conidi

et al. 2020

Developmental Biology

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Sip1 regulates the generation of the inner nuclear layer retinal cell lineages in mammals

Menuchin-Lasowski

Oren-Giladi

Xie

et al. 2016

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The transcription factor Sip1 (Zeb2) plays multiple roles during CNS development from early acquisition of neural fate to cortical neurogenesis and gliogenesis. In humans, SIP1 (ZEB2) haploinsufficiency leads to Mowat-Wilson syndrome, a complex congenital anomaly including intellectual disability, epilepsy and Hirschsprung disease. Here we uncover the role of Sip1 in retinogenesis. Somatic deletion of Sip1 from mouse retinal progenitors primarily affects the generation of inner nuclear layer cell types, resulting in complete loss of horizontal cells and reduced numbers of amacrine and bipolar cells, while the number of Muller glia is increased. Molecular analysis places Sip1 downstream of the eye field transcription factor Pax6 and upstream of Ptf1a in the gene network required for generating the horizontal and amacrine lineages. Intriguingly, characterization of differentiation dynamics reveals that Sip1 has a role in promoting the timely differentiation of retinal interneurons, assuring generation of the proper number of the diverse neuronal and glial cell subtypes that constitute the functional retina in mammals.

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SARS-CoV-2 infects and replicates in photoreceptor and retinal ganglion cells of human retinal organoids

Menuchin-Lasowski

Schreiber

Lecanda

et al. 2021

Preprint

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Several studies have pointed to retinal involvement in COVID 19 disease, yet many questions remain regarding the ability of SARS CoV 2 to infect and replicate in retinal cells and its effects on the retina. Here we have used human stem cell derived retinal organoids to study retinal infection by the SARS CoV 2 virus. Indeed, SARS CoV 2 can infect and replicate in retinal organoids, as it is shown to infect different retinal lineages, such as retinal ganglion cells and photoreceptors. SARS CoV 2 infection of retinal organoids also induces the expression of several inflammatory genes, such as interleukin 33, a gene associated with acute COVID 19 disease and retinal degeneration. Finally, we show that the use of antibodies to block the ACE2 receptor significantly reduces SARS CoV 2 infection of retinal organoids, indicating that SARS CoV 2 infects retinal cells in an ACE2 dependent manner. These results suggest a retinal involvement in COVID 19 and emphasize the need to monitor retinal pathologies as potential sequelae of long COVID.

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