Loss of Maspardin Attenuates the Growth and Maturation of Mouse Cortical Neurons

Davenport, Anne; Bivona, A.; Latson, Will; Lemanski, Larry F.; Cheriyath, Venugopalan

doi:10.1159/000443666

Cited by 4 publications

(1 citation statement)

References 47 publications

(77 reference statements)

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“…Another recent study has reported that Cephalomannine can inhibit hypoxia-induced cellular function via the suppression of APEX1/HIF-1α interaction in lung cancer [28]. attenuated the growth and maturation of mouse cortical neurons [32]. They found that SPG21 -/mice demonstrated significantly less agility and coordination compared to wild-type mice.…”

Section: Discussionmentioning

confidence: 98%

Identification of new microtubule small-molecule inhibitors and microtubule-associated genes against triple negative breast cancer

Chen

2024

Am J Cancer Res

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Breast cancer represents the leading cancer type and leading cause of cancer-related death among women in the world. Triple-negative breast cancer (TNBC) is a subset of breast cancer with the poorest prognosis and still lacking of effective therapeutic options. We recently screened a natural product library and identified 3 new hit compounds with selective and prominent anti-TNBC activities on different subtype of TNBC cell lines. Interestingly, all of these 3 hit compounds belong to "cytoskeletal drugs" that target tubulin and microtubule function. Our data also showed that these hit compounds showed consistently effective on TNBC cells which are resistant to those currently used antimicrotubule agents such as Paclitaxel. RNA-Sequencing analyses revealed the anti-TNBC mechanisms of these hit compounds and identified a subset of new cellular factors commonly affected by hit compounds in different subtypes of TNBC cells. Among them, we demonstrated AHCYL1 and SPG21 as new microtubule-associated proteins, which were required for TNBC cell survival with clinical implication through tissue array analysis. Our studies provide new insights into the mechanisms of TNBC pathogenesis and offer promising therapeutic directions for this aggressive breast cancer.

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Section: Discussionmentioning

confidence: 98%

Identification of new microtubule small-molecule inhibitors and microtubule-associated genes against triple negative breast cancer

Chen

2024

Am J Cancer Res

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Exome sequencing reveals a novel homozygous mutation in ACP33 gene in the first Italian family with SPG21

et al. 2017

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Generation and network analysis of an RNA-seq transcriptional atlas for the rat

Summers

Bush

et al. 2021

Preprint

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The laboratory rat is an important model for biomedical research. To generate a comprehensive rat transcriptomic atlas, we curated and down-loaded 7700 rat RNA-seq datasets from public repositories, down-sampled them to a common depth and quantified expression. Data from 590 rat tissues and cells, averaged from each Bioproject, can be visualised and queried at http://biogps.org/ratatlas. Gene correlation network (GCN) analysis revealed clusters of transcripts that were tissue or cell-type restricted and contained transcription factors implicated in lineage determination. Other clusters were enriched for transcripts associated with biological processes. Many of these clusters overlap with previous data from analysis of other species whilst some (e.g. expressed specifically in immune cells, retina/pineal gland, pituitary and germ cells) are unique to these data. GCN on large subsets of the data related specifically to liver, nervous system, kidney, musculoskeletal system and cardiovascular system enabled deconvolution of cell-type specific signatures. The approach is extensible and the dataset can be used as a point of reference from which to analyse the transcriptomes of cell types and tissues that have not yet been sampled. Sets of strictly co-expressed transcripts provide a resource for critical interpretation of single cell RNA-seq data.

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Loss of Maspardin Attenuates the Growth and Maturation of Mouse Cortical Neurons

Cited by 4 publications

References 47 publications

Identification of new microtubule small-molecule inhibitors and microtubule-associated genes against triple negative breast cancer

Identification of new microtubule small-molecule inhibitors and microtubule-associated genes against triple negative breast cancer

Exome sequencing reveals a novel homozygous mutation in ACP33 gene in the first Italian family with SPG21

Generation and network analysis of an RNA-seq transcriptional atlas for the rat

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