Eliya Bitman-Lotan scite author profile

Eliya Bitman-Lotan

4Publications

85Citation Statements Received

487Citation Statements Given

How they've been cited

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367

480

Affiliations

Technion – Israel Institute of Technology, Rappaport Family Institute for Research in the Medical Sciences

Publications

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The transcription factor Hey and nuclear lamins specify and maintain cell identity

Brodsly

Bitman-Lotan

Boico

et al. 2019

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The inability of differentiated cells to maintain their identity is a hallmark of age-related diseases. We found that the transcription factor Hey supervises the identity of differentiated enterocytes (ECs) in the adult Drosophila midgut. Lineage tracing established that Hey-deficient ECs are unable to maintain their unique nuclear organization and identity. To supervise cell identity, Hey determines the expression of nuclear lamins, switching from a stem-cell lamin configuration to a differentiated lamin configuration. Moreover, continued Hey expression is required to conserve large-scale nuclear organization. During aging, Hey levels decline, and EC identity and gut homeostasis are impaired, including pathological reprograming and compromised gut integrity. These phenotypes are highly similar to those observed upon acute targeting of Hey or perturbation of lamin expression in ECs in young adults. Indeed, aging phenotypes were suppressed by continued expression of Hey in ECs, suggesting that a Hey-lamin network safeguards nuclear organization and differentiated cell identity.

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A fly view of a SUMO-targeted ubiquitin ligase

Abed¹,

Bitman-Lotan²,

Orian³

2011

fly

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Posttranscriptional modifications of proteins by the ubiquitin and SUMO (Small Ubiquitin-related Modifier) pathways regulate the function of protein networks, enable cells to respond to signaling cues during development, and to cope with the changing environment during adult life. Both modifications can impact protein stability, localization, protein-protein interactions and/or function. While both pathways have been well studied individually, the long-speculated nature of crosstalk between SUMO and ubiquitin pathways has been molecularly enigmatic. Recent work in yeast and mammalian cells identified the connection between the two pathways in the form of a conserved family of RING finger ubiquitin ligases termed SUMO-Targeted ubiquitin ligases (STUbLs). These proteins bind to SUMOylated substrates via their SUMO interaction motif and subsequently target them for ubiquitylation. Characterization of Degringolade (Dgrn), a STUbL gene in the fly genome, enabled us to evaluate the contribution of STUbLs to the development of multi-cellular organisms. Analysis of dgrn mutants showed that they are required for cyto-nuclear organization during early embryonic development, and are likely required to cope with mitotic stress and DNA damage. Furthermore, in transcription, STUbLs regulate protein-protein interactions, and are part of molecular machinery that regulates co-repressor choice and gene-expression selectivity during development.

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Nuclear organization and regulation of the differentiated state

Bitman-Lotan

Orian

2021

Cell. Mol. Life Sci.

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Regulation of the differentiated identity requires active and continued supervision. Inability to maintain the differentiated state is a hallmark of aging and aging-related disease. To maintain cellular identity, a network of nuclear regulators is devoted to silencing previous and non-relevant gene programs. This network involves transcription factors, epigenetic regulators, and the localization of silent genes to heterochromatin. Together, identity supervisors mold and maintain the unique nuclear environment of the differentiated cell. This review describes recent discoveries regarding mechanisms and regulators that supervise the differentiated identity and protect from de-differentiation, tumorigenesis, and attenuate forced somatic cell reprograming. The review focuses on mechanisms involved in H3K9me3-decorated heterochromatin and the importance of nuclear lamins in cell identity. We outline how the biophysical properties of these factors are involved in self-compartmentalization of heterochromatin and cell identity. Finally, we discuss the relevance of these regulators to aging and age-related disease.

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The Biology of SUMO-Targeted Ubiquitin Ligases in Drosophila Development, Immunity, and Cancer

Abed¹,

Bitman-Lotan

Orian

2018

JDB

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The ubiquitin and SUMO (small ubiquitin-like modifier) pathways modify proteins that in turn regulate diverse cellular processes, embryonic development, and adult tissue physiology. These pathways were originally discovered biochemically in vitro, leading to a long-standing challenge of elucidating both the molecular cross-talk between these pathways and their biological importance. Recent discoveries in Drosophila established that ubiquitin and SUMO pathways are interconnected via evolutionally conserved SUMO-targeted ubiquitin ligase (STUbL) proteins. STUbL are RING ubiquitin ligases that recognize SUMOylated substrates and catalyze their ubiquitination, and include Degringolade (Dgrn) in Drosophila and RNF4 and RNF111 in humans. STUbL are essential for early development of both the fly and mouse embryos. In the fly embryo, Dgrn regulates early cell cycle progression, sex determination, zygotic gene transcription, segmentation, and neurogenesis, among other processes. In the fly adult, Dgrn is required for systemic immune response to pathogens and intestinal stem cell regeneration upon infection. These functions of Dgrn are highly conserved in humans, where RNF4-dependent ubiquitination potentiates key oncoproteins, thereby accelerating tumorigenesis. Here, we review the lessons learned to date in Drosophila and highlight their relevance to cancer biology.

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