Spop promotes skeletal development and homeostasis by positively regulating Ihh signaling

Cai, Hongchen; Liu, Aimin

doi:10.1073/pnas.1612520114

Cited by 53 publications

(56 citation statements)

References 35 publications

(73 reference statements)

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“…The other mutant allele, Spop ΔEx , bears a deletion of the 4 th and 5 th exons of Spop , which was predicted to truncate the Spop protein at residue 26 due to a frame shift. Immunoblot analyses confirmed the absence of Spop protein in embryonic day (E) 10.5 homozygous mutant embryos for both alleles (Cai and Liu, 2016). Both Spop lacZKI and Spop ΔEx homozygous mutants exhibited neonatal lethality with skeletal defects (Cai and Liu, 2016).…”

Section: Resultsmentioning

confidence: 75%

“…Immunoblot analyses confirmed the absence of Spop protein in embryonic day (E) 10.5 homozygous mutant embryos for both alleles (Cai and Liu, 2016). Both Spop lacZKI and Spop ΔEx homozygous mutants exhibited neonatal lethality with skeletal defects (Cai and Liu, 2016). A small number of mutant embryos exhibited exencephaly (n= 11/157 homozygotes and 5/407 heterozygotes, combining both alleles) and spina bifida (n= 4/157 homozygotes, combining both alleles), suggesting that Spop may play a role in the development of the nervous system.…”

Section: Resultsmentioning

confidence: 75%

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Spop regulates Gli3 activity and Shh signaling in dorsoventral patterning of the mouse spinal cord

Cai

Liu²

2017

Developmental Biology

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Sonic Hedgehog (Shh) signaling regulates the patterning of ventral spinal cord through the effector Gli family of transcription factors. Previous in vitro studies showed that an E3 ubiquitin ligase containing Speckle-type POZ protein (Spop) targets Gli2 and Gli3 for ubiquitination and degradation, but the role of Spop in Shh signaling and mammalian spinal cord patterning remains unknown. Here, we show that loss of Spop does not alter spinal cord patterning, but it suppresses the loss of floor plate and V3 interneuron phenotype of Gli2 mutants, suggesting a negative role of Spop in Gli3 activator activity, Shh signaling and the specification of ventral cell fates in the spinal cord. This correlates with a moderate but significant increase in the level of Gli3 protein in the Spop mutant spinal cords. Furthermore, loss of Spop restores the maximal Shh pathway activation and ventral cell fate specification in the Gli1;Sufu double mutant spinal cord. Finally, we show that loss of Spop-like does not change the spinal cord patterning in either wild type or Spop mutants, suggesting that it does not compensate for the loss of Spop in Shh signaling and spinal cord patterning. Therefore, our results demonstrate a negative role of Spop in the level and activity of Gli3, Shh signaling and ventral spinal cord patterning.

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Section: Resultsmentioning

confidence: 75%

Section: Resultsmentioning

confidence: 75%

Spop regulates Gli3 activity and Shh signaling in dorsoventral patterning of the mouse spinal cord

Cai

Liu²

2017

Developmental Biology

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“…RUNX2, EDAR, and GLI3(Adhikari et al 2016), NFATC1(Kim and Kim 2014), SPOP(Cai and Liu 2016), DDR2) and NELL1, possibly carrying changes in regulatory regions, while mutations in the HHMC-carrying gene encoding for the transcription factor ATRX cause facial dysmorphism(Moncini et al 2013). In addition, genes with HHMCs such as PLXNA2(Oh et al 2012), EVC2(Kwon et al 2018), MEPE(Gullard et al 2016), OMD(Tashima et al 2015), and SPAG17(Teves et al 2015) are known to affect craniofacial bone and tooth morphologies.…”

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confidence: 99%

A catalog of single nucleotide changes distinguishing modern humans from archaic hominins

Kuhlwilm

Boeckx

2018

Preprint

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10Throughout the past decade, studying ancient genomes provided unique insights into human 11 prehistory, and differences between modern humans and other branches like Neanderthals can 12 enrich our understanding of the molecular basis of the human condition. Modern human variation 13 and the interactions between different hominin lineages are now well studied, making it reasonable 14 to explore changes that are observed at high frequency in present-day humans, but do not reach 15 fixation. Here, we put forward interpretation of putative single nucleotide changes in recent modern 16 human history, focusing on 571 genes with non-synonymous changes at high frequency. We 17 suggest that molecular mechanisms in cell division and networks affecting cellular features of 18 neurons were prominently modified by these changes. Complex phenotypes in brain growth 19 trajectory and cognitive traits are likely influenced by these networks and other changes presented 20here. We propose that at least some of these changes contributed to uniquely human traits.

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“…Other notable SPOP substrates include the apoptotic protein Daxx [138,139], deSUMOlyase SENP7 [140], c-Myc [141], HDAC6 [142], Cdc20 [143], protooncogene DEK [144], phosphatases PTEN and Dusp7 [139], hedgehog pathway proteins Gli2 and Gli3 [145,146], and BET transcriptional coactivators BRD2-4 [147][148][149]. SPOP is also closely tied to hormone-activated pathways, as steroid receptor coactivator SRC-3 [150], androgen receptor (AR) [151], enhancer of ARmediated transcriptional activity TRIM24 [144], and estrogen receptor α (ERα) [136] are all substrates of SPOP.…”

Section: Othermentioning

confidence: 99%

E3 Ubiquitin Ligases in Cancer and Their Pharmacological Targeting

Ong¹,

Torres²

2019

Ubiquitin Proteasome System - Current Insights Into Mechanism Cellular Regulation and Disease

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Ubiquitination plays many critical roles in protein function and regulation. Consequently, mutation and aberrant expression of E3 ubiquitin ligases can drive cancer progression. Identifying key ligase-substrate relationships is crucial to understanding the molecular basis and pathways behind cancer and toward identifying novel targets for cancer therapeutics. Here, we review the importance of E3 ligases in the regulating the hallmarks of cancer, discuss some of the key and novel E3 ubiquitin ligases that drive tumor formation and angiogenesis, and review the clinical development of inhibitors that antagonize their function. We conclude with perspectives on the field and future directions toward understanding ubiquitination and cancer progression.

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Spop promotes skeletal development and homeostasis by positively regulating Ihh signaling

Cited by 53 publications

References 35 publications

Spop regulates Gli3 activity and Shh signaling in dorsoventral patterning of the mouse spinal cord

Spop regulates Gli3 activity and Shh signaling in dorsoventral patterning of the mouse spinal cord

A catalog of single nucleotide changes distinguishing modern humans from archaic hominins

E3 Ubiquitin Ligases in Cancer and Their Pharmacological Targeting

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