Endothelial PI3K-C2α, a class II PI3K, has an essential role in angiogenesis and vascular barrier function

Yoshioka, Kazuaki; Yoshida, Kotaro; Chen, Hong; Wakayama, Tomohiko; Takuwa, Noriko; Okamoto, Yasuo; Du, Wa; Qi, Xun; Asanuma, Ken; Sugihara, Kazushi; Aki, Sho; Miyazawa, Hidekazu; Biswas, Kuntal; Nagakura, Chisa; Ueno, Masaya; Iseki, Shoichi; Schwartz, Robert J.; Okamoto, Hiroshi; Sasaki, Takehiko; Matsui, Osamu; Asano, Masahide; Adams, Ralf H.; Takakura, Nobuyuki; Takuwa, Yoh

doi:10.1038/nm.2928

Cited by 180 publications

(282 citation statements)

References 60 publications

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“…Class II PI3K functions have been mostly (although controversially) attributed to PtdIns(3)P, which has roles in either cell signaling or intracellular membrane trafficking. Growing evidence suggests that these two mechanisms could be interrelated at the level of 'endosomal signaling' (Yoshioka et al, 2012;Biswas et al, 2013), or endosome platforms for the formation of specific signal transduction complexes and responses (Platta and Stenmark, 2011). With regard to cell signaling roles, PI3KC2-induced PtdIns(3)P appears to mediate immune cell K + channel activity (in the case of PI3KC2b), growth factor receptor responses, and activation of Rho GTPases in cell contraction and migration (in the cases of PI3KC2a and -b) (Bridges et al, 2012;Falasca and Maffucci, 2012;Yoshioka et al, 2012), whereas PI3KC2a-mediated PtdIns(3,4)P 2 activity has been associated with insulininduced Akt stimulation (Leibiger et al, 2010).…”

Section: Class II Pi3ksmentioning

confidence: 99%

Classes of phosphoinositide 3-kinases at a glance

Jean

Kiger

2014

Journal of Cell Science

286

247

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The phosphoinositide 3-kinase (PI3K) family is important to nearly all aspects of cell and tissue biology and central to human cancer, diabetes and aging. PI3Ks are spatially regulated and multifunctional, and together, act at nearly all membranes in the cell to regulate a wide range of signaling, membrane trafficking and metabolic processes. There is a broadening recognition of the importance of distinct roles for each of the three different PI3K classes (I, II and III), as well as for the different isoforms within each class. Ongoing issues include the need for a better understanding of the in vivo complexity of PI3K regulation and cellular functions. This Cell Science at a Glance article and the accompanying poster summarize the biochemical activities, cellular roles and functional requirements for the three classes of PI3Ks. In doing so, we aim to provide an overview of the parallels, the key differences and crucial interplays between the regulation and roles of the three PI3K classes.

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Section: Class II Pi3ksmentioning

confidence: 99%

Classes of phosphoinositide 3-kinases at a glance

Jean

Kiger

2014

Journal of Cell Science

286

247

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“…[23,24] The important role of the PAM pathway in angiogenesis has been confirmed in various malignancies where inhibition of pan-PI3K by LY294002 and downregulation of p110α (or recently, PI3KC2α) were shown to block tumor vascularization. [15,22,25] In myeloid cells, PI3Kϒ was reported to be involved in the activation of integrin α4β1, leading to myeloid cell invasion into tumors and, in turn, to tumor angiogenesis. [26] In GBM, the most aggressive glioma subtype, the PAM pathway also plays a crucial role in the induction of invasion, angiogenesis and the expression of VEGF in cells.…”

Section: Angiogenesismentioning

confidence: 99%

“…The implications of aberrant PAM signaling in angiogenesis, epithelial to mesenchymal transition (EMT) and immune response modulation is currently under intense investigation. [13][14][15] Components of the PAM pathway are therefore being considered as potential drug targets [ Table 1] to inhibit the often fatal events of metastasis and cell invasion. [16][17][18] …”

Section: Introductionmentioning

confidence: 99%

The role of the PI3K/AKT/mTOR pathway in brain tumor metastasis

Crespo¹,

Kind²,

Arcaro³

2016

JCMT

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The PI3K/AKT/mTOR (PAM) pathway is involved in a variety of cellular functions and often contributes to oncogenesis and cancer progression. It has been recognized that this pathway is frequently activated in the most common central nervous system cancers of adults and children, malignant gliomas and medulloblastomas (MB). In these tumors, the PAM network controls key functions necessary for cell invasion and metastasis, such as cell motility. This review summarizes the current knowledge about the role of PAM signaling in cell invasion and metastasis in gliomas and MB. Current approaches to inhibit cell invasion and metastasis by targeting the PAM pathway will also be discussed.

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“…One of the major mechanisms to translate such extracellular inputs into a cellular response is protein and lipid phosphorylation. However, specific roles for regulation of phosphorylation during angiogenesis have been assigned to only a few kinases and phosphatases (Deng et al, 2013;Nakayama et al, 2013;Serra et al, 2015;Yoshioka et al, 2012).…”

Section: Introductionmentioning

confidence: 99%

cAMP-dependent protein kinase A (PKA) regulates angiogenesis by modulating tip cell behavior in a Notch-independent manner

et al. 2016

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cAMP-dependent protein kinase A (PKA) is a ubiquitously expressed serine/threonine kinase that regulates a variety of cellular functions. Here, we demonstrate that endothelial PKA activity is essential for vascular development, specifically regulating the transition from sprouting to stabilization of nascent vessels. Inhibition of endothelial PKA by endothelial cell-specific expression of dominant-negative PKA in mice led to perturbed vascular development, hemorrhage and embryonic lethality at mid-gestation. During perinatal retinal angiogenesis, inhibition of PKA resulted in hypersprouting as a result of increased numbers of tip cells. In zebrafish, cell autonomous PKA inhibition also increased and sustained endothelial cell motility, driving cells to become tip cells. Although these effects of PKA inhibition were highly reminiscent of Notch inhibition effects, our data demonstrate that PKA and Notch independently regulate tip and stalk cell formation and behavior.

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Endothelial PI3K-C2α, a class II PI3K, has an essential role in angiogenesis and vascular barrier function

Cited by 180 publications

References 60 publications

Classes of phosphoinositide 3-kinases at a glance

Classes of phosphoinositide 3-kinases at a glance

The role of the PI3K/AKT/mTOR pathway in brain tumor metastasis

cAMP-dependent protein kinase A (PKA) regulates angiogenesis by modulating tip cell behavior in a Notch-independent manner

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