<i>Pi3kcb</i>
            Links Hippo-YAP and PI3K-AKT Signaling Pathways to Promote Cardiomyocyte Proliferation and Survival

Lin, Zhiqiang; Zhou, Pingzhu; Gise, Alexander von; Gu, Fei; Ma, Qing; Chen, Jinghai; Guo, Hai-dong; Gorp, Pim R.R. van; Wang, Dazhi; Pu, William T.

doi:10.1161/circresaha.115.304457

Cited by 262 publications

(260 citation statements)

References 31 publications

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“…Increased phosphorylation of STAT5 results in nuclear retention (48), and therefore interaction of pSTAT5 with YAP1 would be expected to result in nuclear retention of YAP1. Intriguingly, recent ChIP studies for YAP1 in a cardiomyocyte cell line indicated significant enrichment for STAT5-binding sites within the vicinity of YAP1-bound sites (49).…”

Section: Erbb2 (Supplementalmentioning

confidence: 98%

Adaptor proteins NUMB and NUMBL promote cell cycle withdrawal by targeting ERBB2 for degradation

Hirai¹,

Arita²,

McGlade³

et al. 2017

Journal of Clinical Investigation

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Section: Erbb2 (Supplementalmentioning

confidence: 98%

Adaptor proteins NUMB and NUMBL promote cell cycle withdrawal by targeting ERBB2 for degradation

Hirai¹,

Arita²,

McGlade³

et al. 2017

Journal of Clinical Investigation

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“…Previous studies have suggested that YAP regulates components of the AKT pathway (i.e., PI3K, PTEN, and AKT) and that the Drosophila Hippo ortholog MST1 binds and inhibits AKT directly (26)(27)(28)(29). Increased YAP expression in human liver tumors is associated with high levels of p- AKT (30,31).…”

Section: Introductionmentioning

confidence: 99%

“…In mice, liverspecific knockout of the Hippo pathway components MST1/2, SAV1, or NF2 induces the expansion of hepatic progenitor cells via YAP/TAZ activation and leads eventually to the development of liver cancer (HCC, cholangiocarcinoma [CC], or both) (22)(23)(24)(25). Despite its importance in tumorigenesis, the role of Hippo signaling in the metabolic dysregulation that precedes the development of liver cancer remains unclear.Previous studies have suggested that YAP regulates components of the AKT pathway (i.e., PI3K, PTEN, and AKT) and that the Drosophila Hippo ortholog MST1 binds and inhibits AKT directly (26)(27)(28)(29). Increased YAP expression in human liver tumors is associated with high levels of p- AKT (30,31).…”

mentioning

confidence: 99%

Hippo-mediated suppression of IRS2/AKT signaling prevents hepatic steatosis and liver cancer

Jeong

Kim

et al. 2018

Journal of Clinical Investigation

150

102

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IntroductionNAFLD is characterized by an excessive accumulation of fat in the liver. The most severe form of NAFLD, NASH, often progresses to liver cancer (1-3). Tracking with the increasing prevalence of general obesity, 30% of the US population is now estimated to have NAFLD, and 25% of these individuals will develop NASH (1, 3). Currently, there are no effective therapies to prevent the incidence and progression of NAFLD or NASH (4). This makes clarification of the detailed mechanisms of disease progression using appropriate animal models that much more urgent.Insulin signaling begins with the binding of insulin to the insulin receptor (IR). This then phosphorylates insulin receptor substrates (IRSs) and subsequently triggers the recruitment of PI3K and the activation of AKT (5-9). Deletion of IRS1 and IRS2 in the mouse liver reduces AKT activity and gives rise to insulin resistance (10). Excessive AKT activation leads to the development of NAFLD by promoting the maturation of the transcription factor SREBP1c (11,12). In its mature form, SREBP1c contributes to the induction of fatty acid synthase (FAS) and acetyl-CoA carboxylase (ACC), which are key enzymes in de novo lipogenesis (13). Phosphatase and tensin homolog (PTEN) is a negative regulator of AKT signaling, and several human cancers are associated with mutations or downregulation of the PTEN gene (14-16). Liver-specific PTEN-knockout mice progressively develop NAFLD, NASH, and HCC (17, 18) as a result of increased AKT signaling (19).The Hippo signaling pathway has been implicated in the suppression of tissue regeneration, the proliferation of stem cells, and the development of cancer by inhibiting the oncogenic activity of the transcriptional coactivators YAP and TAZ (20,21). In mice, liverspecific knockout of the Hippo pathway components MST1/2, SAV1, or NF2 induces the expansion of hepatic progenitor cells via YAP/TAZ activation and leads eventually to the development of liver cancer (HCC, cholangiocarcinoma [CC], or both) (22)(23)(24)(25). Despite its importance in tumorigenesis, the role of Hippo signaling in the metabolic dysregulation that precedes the development of liver cancer remains unclear.Previous studies have suggested that YAP regulates components of the AKT pathway (i.e., PI3K, PTEN, and AKT) and that the Drosophila Hippo ortholog MST1 binds and inhibits AKT directly (26)(27)(28)(29). Increased YAP expression in human liver tumors is associated with high levels of p- AKT (30,31). This suggests that crosstalk between the Hippo and AKT pathways may be important in the maintenance of functional liver homeostasis. The molecular coordination of these 2 pathways in liver tumorigenesis, however, has not been revealed. Using several mouse models, we now show Nonalcoholic fatty liver disease (NAFLD) is a major risk factor for liver cancer; therefore, its prevention is an important clinical goal. Ablation of phosphatase and tensin homolog (PTEN) or the protein kinase Hippo signaling pathway induces liver cancer via activation of AKT or the transc...

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“…A significance threshold was set at the commonly used values of ±1.3. Activation of the PI3K/AKT pathway, which is known to promote both cardiomyocyte proliferation and survival (Figure 3(a)) [38], peaked at 12 h and subsided 24 h after A1-CM exposure (Figure 3(b)). Conversely, there was a significant reduction in the expression of genes associated with cellular differentiation, including bone morphogenetic protein (BMP) signalling ( Z = −1.13) and TGF-β signalling ( Z = −1.89) pathways [39].…”

Section: Resultsmentioning

confidence: 99%

Newt cells secrete extracellular vesicles with therapeutic bioactivity in mammalian cardiomyocytes

Middleton

Rogers

Couto

et al. 2018

J of Extracellular Vesicle

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Newts can regenerate amputated limbs and cardiac tissue, unlike mammals which lack broad regenerative capacity. Several signaling pathways involved in cell proliferation, differentiation and survival during newt tissue regeneration have been elucidated, however the factors that coordinate signaling between cells, as well as the conservation of these factors in other animals, are not well defined. Here we report that media conditioned by newt limb explant cells (A1 cells) protect mammalian cardiomyocytes from oxidative stress-induced apoptosis. The cytoprotective effect of A1-conditioned media was negated by exposing A1 cells to GW4869, which suppresses the generation of extracellular vesicles (EVs). A1-EVs are similar in diameter (~100–150 nm), structure, and share several membrane surface and cargo proteins with mammalian exosomes. However, isolated A1-EVs contain significantly higher levels of both RNA and protein per particle than mammalian EVs. Additionally, numerous cargo RNAs and proteins are unique to A1-EVs. Of particular note, A1-EVs contain numerous mRNAs encoding nuclear receptors, membrane ligands, as well as transcription factors. Mammalian cardiomyocytes treated with A1-EVs showed increased expression of genes in the PI3K/AKT pathway, a pivotal player in survival signaling. We conclude that newt cells secrete EVs with diverse, distinctive RNA and protein contents. Despite ~300 million years of evolutionary divergence between newts and mammals, newt EVs confer cytoprotective effects on mammalian cardiomyocytes.

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Pi3kcb Links Hippo-YAP and PI3K-AKT Signaling Pathways to Promote Cardiomyocyte Proliferation and Survival

Cited by 262 publications

References 31 publications

Adaptor proteins NUMB and NUMBL promote cell cycle withdrawal by targeting ERBB2 for degradation

Adaptor proteins NUMB and NUMBL promote cell cycle withdrawal by targeting ERBB2 for degradation

Hippo-mediated suppression of IRS2/AKT signaling prevents hepatic steatosis and liver cancer

Newt cells secrete extracellular vesicles with therapeutic bioactivity in mammalian cardiomyocytes

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