Citations to this article

AKT activation promotes PTEN hamartoma tumor syndrome–associated cataract development
Caterina Sellitto, … , Richard T. Mathias, Thomas W. White
Caterina Sellitto, … , Richard T. Mathias, Thomas W. White
Published November 25, 2013
Citation Information: J Clin Invest. 2013;123(12):5401-5409. https://doi.org/10.1172/JCI70437.
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AKT activation promotes PTEN hamartoma tumor syndrome–associated cataract development

Abstract

Mutations in the human phosphatase and tensin homolog (PTEN) gene cause PTEN hamartoma tumor syndrome (PHTS), which includes cataract development among its diverse clinical pathologies. Currently, it is not known whether cataract formation in PHTS patients is secondary to other systemic problems, or the result of the loss of a critical function of PTEN within the lens. We generated a mouse line with a lens-specific deletion of Pten (PTEN KO) and identified a regulatory function for PTEN in lens ion transport. Specific loss of PTEN in the lens resulted in cataract. PTEN KO lenses exhibited a progressive age-related increase in intracellular hydrostatic pressure, along with, increased intracellular sodium concentrations, and reduced Na+/K+-ATPase activity. Collectively, these defects lead to lens swelling, opacities and ultimately organ rupture. Activation of AKT was highly elevated in PTEN KO lenses compared to WT mice. Additionally, pharmacological inhibition of AKT restored normal Na+/K+-ATPase activity in primary cultured lens cells and reduced lens pressure in intact lenses from PTEN KO animals. These findings identify a direct role for PTEN in the regulation of lens ion transport through an AKT-dependent modulation of Na+/K+-ATPase activity, and provide a new animal model to investigate cataract development in PHTS patients.

Authors

Caterina Sellitto, Leping Li, Junyuan Gao, Michael L. Robinson, Richard Z. Lin, Richard T. Mathias, Thomas W. White

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Citations to this article (24)

Title and authors Publication Year
Combinatorial genetic manipulation of Cx50, PI3K and PTEN alters postnatal mouse lens growth and homeostasis
Sellitto C, White TW 		Frontiers in Ophthalmology 2025
A Transcriptomics Analysis of the Regulation of Lens Fiber Cell Differentiation in the Absence of FGFRs and PTEN.
Upreti A, Padula SL, Weaver JM, Wagner BD, Kneller AM, Petulla AL, Lachke SA, Robinson ML 		Cells 2024
Double Deletion of PI3K and PTEN Modifies Lens Postnatal Growth and Homeostasis.
Sellitto C, Li L, White TW 		Cells 2022
Loss of fiber cell communication may contribute to the development of cataracts of many different etiologies
Beyer EC, Mathias RT, Berthoud VM 		Frontiers in physiology 2022
Regulation of the Membrane Trafficking of the Mechanosensitive Ion Channels TRPV1 and TRPV4 by Zonular Tension, Osmotic Stress and Activators in the Mouse Lens
Y Nakazawa, RS Petrova, Y Sugiyama, N Nagai, H Tamura, PJ Donaldson 		International journal of molecular sciences 2021
Physiological Mechanisms Regulating Lens Transport
A Giannone, L Li, C Sellitto, T White 		Frontiers in physiology 2021
Multi-parametric MRI of the physiology and optics of the in-vivo mouse lens
ER Muir, X Pan, PJ Donaldson, E Vaghefi, Z Jiang, C Sellitto, TW White 		Magnetic Resonance Imaging 2020
TRPV1 activation stimulates NKCC1 and increases hydrostatic pressure in the mouse lens
M Shahidullah, A Mandal, RT Mathias, J Gao, D Križaj, S Redmon, NA Delamere 		American journal of physiology. Cell physiology 2020
Signaling Between TRPV1/TRPV4 and Intracellular Hydrostatic Pressure in the Mouse Lens
NA Delamere, M Shahidullah, RT Mathias, J Gao, X Sun, C Sellitto, TW White 		Investigative ophthalmology & visual science 2020
Lens fiber cell differentiation occurs independently of fibroblast growth factor receptor signaling in the absence of Pten
SL Padula, EP Sidler, BD Wagner, CJ Manz, FJ Lovicu, ML Robinson 		Developmental Biology 2020
The Connexin50D47A Mutant Causes Cataracts by Calcium Precipitation
VM Berthoud, J Gao, PJ Minogue, O Jara, RT Mathias, EC Beyer 		Investigative ophthalmology & visual science 2019
The Ciliary Muscle and Zonules of Zinn Modulate Lens Intracellular Hydrostatic Pressure Through Transient Receptor Potential Vanilloid Channels
Y Chen, J Gao, L Li, C Sellitto, RT Mathias, PJ Donaldson, TW White 		Investigative ophthalmology & visual science 2019
High-throughput transcriptome analysis reveals that the loss of Pten activates a novel NKX6-1/RASGRP1 regulatory module to rescue microphthalmia caused by Fgfr2-deficient lenses
SL Padula, D Anand, TV Hoang, BR Chaffee, L Liu, C Liang, SA Lachke, ML Robinson 		Human Genetics 2019
Disruption of the lens circulation causes calcium accumulation and precipitates in connexin mutant mice
J Gao, PJ Minogue, EC Beyer, RT Mathias, VM Berthoud 		American journal of physiology. Cell physiology 2018
Alteration of transporter activities in the epididymides of infertile initial segment-specific Pten knockout mice†
B Xu, SD Turner, BT Hinton 		Biology of reproduction 2018
TRPV1-dependent ERK1/2 activation in porcine lens epithelium
A Mandal, M Shahidullah, NA Delamere 		Experimental Eye Research 2018
Focus on lens connexins
VM Berthoud, A Ngezahayo 		BMC cell biology 2017
Functional non-coding polymorphism in an EPHA2 promoter PAX2 binding site modifies expression and alters the MAPK and AKT pathways
X Ma, Z Ma, X Jiao, JF Hejtmancik 		Scientific Reports 2017
The Role of Aquaporins in Ocular Lens Homeostasis
K Schey, R Petrova, R Gletten, P Donaldson 		International journal of molecular sciences 2017
The Phosphoinosotide 3-Kinase Catalytic Subunit p110α is Required for Normal Lens Growth
C Sellitto, L Li, E Vaghefi, PJ Donaldson, RZ Lin, TW White 		Investigative ophthalmology & visual science 2016
FGFR and PTEN signaling interact during lens development to regulate cell survival
BR Chaffee, TV Hoang, MR Leonard, DG Bruney, BD Wagner, JR Dowd, G Leone, MC Ostrowski, ML Robinson 		Developmental Biology 2016
Differential regulation of Connexin50 and Connexin46 by PI3K signaling
JM Martinez, HZ Wang, RZ Lin, PR Brink, TW White 		FEBS Letters 2015
Feedback Regulation of Intracellular Hydrostatic Pressure in Surface Cells of the Lens
J Gao, X Sun, TW White, NA Delamere, RT Mathias 		Biophysical Journal 2015
Germline activating MTOR mutation arising through gonadal mosaicism in two brothers with megalencephaly and neurodevelopmental abnormalities
C Mroske, K Rasmussen, DN Shinde, R Huether, Z Powis, HM Lu, RM Baxter, E McPherson, S Tang 		BMC Medical Genetics 2015

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