Mutations in PIK3C2A cause syndromic short stature, skeletal abnormalities, and cataracts associated with ciliary dysfunction

Tiosano, Dov; Baris, Hagit N.; Chen, Anlu; Hitzert, Marrit M.; Schueler, Markus; Gulluni, Federico; Wiesener, Antje; Bergua, Antonio; Mory, Adi; Copeland, Brett; Gleeson, Joseph G.; Rump, Patrick; Meer, Hester van; Sival, Deborah A; Haucke, Volker; Kriwinsky, Josh; Knaup, Karl X.; Reis, André; Hauer, Nadine; Hirsch, Emilio; Roepman, Ronald; Pfundt, Rolph; Thiel, Christian T.; Wiesener, Michael S.; Aslanyan, Mariam G; Buchner, David A.

doi:10.1371/journal.pgen.1008088

Cited by 48 publications

(42 citation statements)

References 80 publications

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“…These phenotypes are consistent with the impaired Smoothened and polycystin-2 cilia trafficking [9,73]. Furthermore, fibroblasts from subjects with the novel PIK3C2A mutant ciliopathy-like syndrome exhibit shorter cilia with reduced PtdIns(3)P and Rab11 levels at the cilia base [75]. In renal epithelial cells this cilia base endosomal PtdIns(3)P pool is increased by shear stress in a PI3K-C2α-dependent manner to recruit autophagy mediators and thereby activates a non-canonical shear stress-induced autophagy program [137].…”

Section: Pericentriolar Recycling Endocytic Compartment: Local Ptdins(3)p Controls Cilia Length and Subcellular Trafficking Of Cilia Protsupporting

confidence: 71%

“…Many features of this syndrome are similar to classical ciliopathy syndromes [30] and closely resemble Lowe's syndrome, a ciliopathy-associated disorder with mutations in the cilia-localised 5-phosphatase OCRL discussed below [76,77]. Similar to Pik3c2a-null cells, PIK3C2A mutant human fibroblasts exhibit reduced cilia length, suggesting that this PIK3C2A mutant syndrome may represent a new ciliopathy [75].…”

Section: Pi3k-c2αmentioning

confidence: 62%

“…A novel human syndrome defined by skeletal malformations, short stature, cataracts and developmental delay was recently associated with homozygous PIK3C2A mutations [75]. All mutations identified to date are thought to be loss-of-function and result in a loss of protein expression [75]. Many features of this syndrome are similar to classical ciliopathy syndromes [30] and closely resemble Lowe's syndrome, a ciliopathy-associated disorder with mutations in the cilia-localised 5-phosphatase OCRL discussed below [76,77].…”

Section: Pi3k-c2αmentioning

confidence: 99%

Section: Pi3k-c2αmentioning

confidence: 99%

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Phosphoinositide lipids in primary cilia biology

Conduit

Vanhaesebroeck

2020

Biochemical Journal

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Primary cilia are solitary signalling organelles projecting from the surface of most cell types. Although the ciliary membrane is continuous with the plasma membrane it exhibits a unique phospholipid composition, a feature essential for normal cilia formation and function. Recent studies have illustrated that distinct phosphoinositide lipid species localise to specific cilia subdomains, and have begun to build a ‘phosphoinositide map’ of the cilium. The abundance and localisation of phosphoinositides are tightly regulated by the opposing actions of lipid kinases and lipid phosphatases that have also been recently discovered at cilia. The critical role of phosphoinositides in cilia biology is highlighted by the devastating consequences of genetic defects in cilia-associated phosphoinositide regulatory enzymes leading to ciliopathy phenotypes in humans and experimental mouse and zebrafish models. Here we provide a general introduction to primary cilia and the roles phosphoinositides play in cilia biology. In addition to increasing our understanding of fundamental cilia biology, this rapidly expanding field may inform novel approaches to treat ciliopathy syndromes caused by deregulated phosphoinositide metabolism.

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Section: Pericentriolar Recycling Endocytic Compartment: Local Ptdins(3)p Controls Cilia Length and Subcellular Trafficking Of Cilia Protsupporting

confidence: 71%

Section: Pi3k-c2αmentioning

confidence: 62%

Section: Pi3k-c2αmentioning

confidence: 99%

Section: Pi3k-c2αmentioning

confidence: 99%

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Phosphoinositide lipids in primary cilia biology

Conduit

Vanhaesebroeck

2020

Biochemical Journal

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“…A very high degree of synteny is maintained between MyoD1 containing regions of human chromosome 11 and chicken chromosome 5, comprising ABCC8, KCNJ11, PIK3C2A, RPS13, SERGEF, NUCB2 and PLEKHA7 genes [135]. Mutations in PIK3C2A gene were discovered to cause a growth-related genetic syndrome in humans, consisting of dysmorphic features, short stature and skeletal abnormalities [136]. This gene has been attributed to biological functions such as glucose transport, Akt pathway activation, endosomal trafficking, phagosome maturation, mitotic spindle organization, exocytosis and autophagy [137][138][139][140][141][142][143].…”

Section: Discussionmentioning

confidence: 99%

CNV-based genome-wide association studies with performance traits in broilers

Fernandes¹

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First and foremost, thank you, God, for always being there for me. To my parents, Anna and Douglas, for your truly selfless and unconditional love. Thank you both for always giving me strength, for reminding me every day that I can do this and for being a constant source of support in my many many moments of crisis, during the challenges of graduate school and life. You are my world and my everything this life can bring. I could not have done it without you. My little brother André, aunt Kátia and uncle Luciano deserve my wholehearted thanks and appreciation as well. To my beloved grandpa Pasquale and great-aunts Lola and Beta. You are loved beyond words and missed beyond measures. I will always have this piece of my heart that smiles whenever I think about you. You were a priceless gift in my life and I will be forever grateful for the love, knowledge and values you instilled in me. I would like to sincerely express my gratitude and appreciation to my academic advisor, Dr. Luiz Coutinho, for his guidance, help and support, and especially for his confidence in me. You have set an example of excellence as a researcher and mentor. I would also like to thank my LBA team, in particular Dr. Gabriel and Dr. Vinicius, for guiding me throughout this study; your discussion, ideas, and feedback have been absolutely invaluable. To all my friends, in particular Pedro and Thais. You are the people who make me smile brighter, laugh louder and live better. True friendship isn't about being inseparable. It's being separated and nothing changes. Your friendship makes my life a better experience! Finally, I wish to express my deepest gratitude to University of São Paulo-"Luiz de Queiroz" College of Agriculture (USP/ESALQ) for the privilege granted and for aggregating so much knowledge in my academic history. You challenged me to be fearless in the pursuit of all opportunities and taught me that learning knows no boundaries. A special acknowledgment to CNPq for supporting me with a scholarship (process 134211/2019-7).

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Phosphoinositide Conversion Inactivates R‐RAS and Drives Metastases in Breast Cancer

Prever

Hsu

et al. 2022

Advanced Science

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Breast cancer is the most prevalent cancer and a major cause of death in women worldwide. Although early diagnosis and therapeutic intervention significantly improve patient survival rate, metastasis still accounts for most deaths. Here it is reported that, in a cohort of more than 2000 patients with breast cancer, overexpression of PI3KC2α occurs in 52% of cases and correlates with high tumor grade as well as increased probability of distant metastatic events, irrespective of the subtype. Mechanistically, it is demonstrated that PI3KC2α synthetizes a pool of PI(3,4)P2 at focal adhesions that lowers their stability and directs breast cancer cell migration, invasion, and metastasis. PI(3,4)P2 locally produced by PI3KC2α at focal adhesions recruits the Ras GTPase activating protein 3 (RASA3), which inactivates R‐RAS, leading to increased focal adhesion turnover, migration, and invasion both in vitro and in vivo. Proof‐of‐concept is eventually provided that inhibiting PI3KC2α or lowering RASA3 activity at focal adhesions significantly reduces the metastatic burden in PI3KC2α‐overexpressing breast cancer, thereby suggesting a novel strategy for anti‐breast cancer therapy.

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Mutations in PIK3C2A cause syndromic short stature, skeletal abnormalities, and cataracts associated with ciliary dysfunction

Cited by 48 publications

References 80 publications

Phosphoinositide lipids in primary cilia biology

Phosphoinositide lipids in primary cilia biology

CNV-based genome-wide association studies with performance traits in broilers

Phosphoinositide Conversion Inactivates R‐RAS and Drives Metastases in Breast Cancer

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