NFDI4DS | UHH-SEMS - Publication Details

Danna Sheinboim

ORCID: 0000-0003-2514-0731

Publications

Citations

Views

---

Saved

---

About

Contact & Profiles

A5047768652

Research Areas

Advanced Radiotherapy Techniques
Sarcoma Diagnosis and Treatment
melanin and skin pigmentation
Cancer Cells and Metastasis
MicroRNA in disease regulation
Pluripotent Stem Cells Research
Epigenetics and DNA Methylation
Genomics and Chromatin Dynamics
Cancer, Hypoxia, and Metabolism
CRISPR and Genetic Engineering
RNA Interference and Gene Delivery
Diet and metabolism studies
RNA Research and Splicing
Cancer Research and Treatments
Plant Molecular Biology Research
Circadian rhythm and melatonin
Cancer-related molecular mechanisms research
Immunotherapy and Immune Responses
Circular RNAs in diseases
Cancer Diagnosis and Treatment
RNA modifications and cancer
Radiomics and Machine Learning in Medical Imaging
Cancer-related gene regulation

Tel Aviv University
2016-2022

Melanoma miRNA trafficking controls tumour primary niche formation

OPENALEX - Publications

Shani Dror Laureen Sander Hila Schwartz Danna Sheinboim Aviv Barzilai and 21 more

10.1038/ncb3399 article EN Nature Cell Biology 2016-08-22

DNA methylation directs microRNA biogenesis in mammalian cells

OPENALEX - Publications

Ohad Glaich Shivang Parikh Rachel E. Bell Keren Mekahel Maya Donyo and 9 more

Abstract MicroRNA (miRNA) biogenesis initiates co-transcriptionally, but how the Microprocessor machinery pinpoints locations of short precursor miRNA sequences within long flanking regions transcript is not known. Here we show that depends on DNA methylation. When coding sequence are highly methylated, miRNAs more expressed, have greater conservation, and likely to drive cancer-related phenotypes than encoded by unmethylated loci. We removal methylation from loci leads their downregulation....

10.1038/s41467-019-13527-1 article EN cc-by Nature Communications 2019-12-11

Enhancer methylation dynamics contribute to cancer plasticity and patient mortality

OPENALEX - Publications

Rachel E. Bell Tamar Golan Danna Sheinboim Hagar Malcov David Amar and 6 more

During development, enhancers play pivotal roles in regulating gene expression programs; however, their involvement cancer progression has not been fully characterized. We performed an integrative analysis of DNA methylation, RNA-seq, and small RNA-seq profiles from thousands patients, including 25 diverse primary malignances seven body sites metastatic melanoma. found that are consistently the most differentially methylated regions (DMR) as progresses normal to tumors then metastases,...

10.1101/gr.197194.115 article EN cc-by-nc Genome Research 2016-02-23

An Exercise-Induced Metabolic Shield in Distant Organs Blocks Cancer Progression and Metastatic Dissemination

OPENALEX - Publications

Danna Sheinboim Shivang Parikh Paulee Manich Irit Markus Sapir Dahan and 35 more

Exercise prevents cancer incidence and recurrence, yet the underlying mechanism behind this relationship remains mostly unknown. Here we report that exercise induces metabolic reprogramming of internal organs increases nutrient demand protects against metastatic colonization by limiting availability to tumor, generating an exercise-induced shield. Proteomic ex vivo capacity analyses murine revealed catabolic processes, glucose uptake, mitochondrial activity, GLUT expression. analysis...

10.1158/0008-5472.can-22-0237 article EN cc-by-nc-nd Cancer Research 2022-09-09

UV-Protection Timer Controls Linkage between Stress and Pigmentation Skin Protection Systems

OPENALEX - Publications

Hagar Malcov-Brog Ayelet Alpert Tamar Golan Shivang Parikh Alice Nordlinger and 17 more

Skin sun exposure induces two protection programs: stress responses and pigmentation, the former within minutes latter only hours afterward. Although serving same physiological purpose, it is not known whether how these programs are coordinated. Here, we report that UVB every other day significantly more skin pigmentation than higher frequency of daily exposure, without an associated increase in responses. Using mathematical modeling empirical studies, show melanocyte master regulator, MITF,...

10.1016/j.molcel.2018.09.022 article EN cc-by-nc-nd Molecular Cell 2018-10-25

Adipocytes sensitize melanoma cells to environmental TGF-β cues by repressing the expression of miR-211

OPENALEX - Publications

Tamar Golan Roma Parikh Etai Jacob Hananya Vaknine Valentina Zemser-Werner and 12 more

Fat cells secrete cytokines that enhance pro-metastatic TGF-β signaling in melanoma cells.

10.1126/scisignal.aav6847 article EN Science Signaling 2019-07-23

OCT4 impedes cell fate redirection by the melanocyte lineage master regulator MITF in mouse ESCs

OPENALEX - Publications

Danna Sheinboim Itay Maza Iris Dror Shivang Parikh Vladislav Krupalnik and 8 more

Abstract Ectopic expression of lineage master regulators induces transdifferentiation. Whether cell fate transitions can be induced during various developmental stages has not been systemically examined. Here we discover that amongst different stages, mouse embryonic stem cells (mESCs) are resistant to conversion by the melanocyte regulator MITF. By generating a transgenic system exhibit in mESCs, pluripotency Oct4, counteracts pro-differentiation Mitf physical interference with MITF...

10.1038/s41467-017-01122-1 article EN cc-by Nature Communications 2017-10-12

Slow Transcription of the 99a/let-7c/125b-2 Cluster Results in Differential MiRNA Expression and Promotes Melanoma Phenotypic Plasticity

OPENALEX - Publications

Danna Sheinboim Shivang Parikh Roma Parikh Amitai Menuchin Guy Shapira and 13 more

10.1016/j.jid.2021.03.036 article EN publisher-specific-oa Journal of Investigative Dermatology 2021-06-26

Pluripotent genes role in normal melanocyte lineage commitment and malignant transformation

OPENALEX - Publications

Danna Sheinboim Itay Maza Iris Dror Jacob H. Hanna Carmit Levy

10.1016/s0959-8049(16)61386-2 article EN European Journal of Cancer 2016-07-01

Data from An Exercise-Induced Metabolic Shield in Distant Organs Blocks Cancer Progression and Metastatic Dissemination

OPENALEX - Publications

Danna Sheinboim Shivang Parikh Paulee Manich Irit Markus Sapir Dahan and 35 more

<div>Abstract<p>Exercise prevents cancer incidence and recurrence, yet the underlying mechanism behind this relationship remains mostly unknown. Here we report that exercise induces metabolic reprogramming of internal organs increases nutrient demand protects against metastatic colonization by limiting availability to tumor, generating an exercise-induced shield. Proteomic <i>ex vivo</i> capacity analyses murine revealed catabolic processes, glucose uptake,...

10.1158/0008-5472.c.6514299.v1 preprint EN 2023-03-31

Supplementary Data from An Exercise-Induced Metabolic Shield in Distant Organs Blocks Cancer Progression and Metastatic Dissemination

OPENALEX - Publications

Danna Sheinboim Shivang Parikh Paulee Manich Irit Markus Sapir Dahan and 35 more

Supplementary Data from An Exercise-Induced Metabolic Shield in Distant Organs Blocks Cancer Progression and Metastatic Dissemination

10.1158/0008-5472.22433064 preprint EN cc-by 2023-03-31

Supplementary Data from An Exercise-Induced Metabolic Shield in Distant Organs Blocks Cancer Progression and Metastatic Dissemination

OPENALEX - Publications

Danna Sheinboim Shivang Parikh Paulee Manich Irit Markus Sapir Dahan and 35 more

Supplementary Data from An Exercise-Induced Metabolic Shield in Distant Organs Blocks Cancer Progression and Metastatic Dissemination

10.1158/0008-5472.22433070 preprint EN cc-by 2023-03-31

Supplementary Data from An Exercise-Induced Metabolic Shield in Distant Organs Blocks Cancer Progression and Metastatic Dissemination

OPENALEX - Publications

Danna Sheinboim Shivang Parikh Paulee Manich Irit Markus Sapir Dahan and 35 more

Supplementary Data from An Exercise-Induced Metabolic Shield in Distant Organs Blocks Cancer Progression and Metastatic Dissemination

10.1158/0008-5472.22433070.v1 preprint EN cc-by 2023-03-31

Supplementary Data from An Exercise-Induced Metabolic Shield in Distant Organs Blocks Cancer Progression and Metastatic Dissemination

OPENALEX - Publications

Danna Sheinboim Shivang Parikh Paulee Manich Irit Markus Sapir Dahan and 35 more

Supplementary Data from An Exercise-Induced Metabolic Shield in Distant Organs Blocks Cancer Progression and Metastatic Dissemination

10.1158/0008-5472.22433064.v1 preprint EN cc-by 2023-03-31

Coming Soon ...