Soumya Ullas scite author profile

Differentiation of functional thyroid epithelia from pluripotent stem cells (PSCs) holds the potential for application in regenerative medicine. However, progress toward this goal is hampered by incomplete understanding of the signaling pathways needed for directed differentiation without forced over-expression of exogenous transgenes. Here we use mouse PSCs to identify key conserved roles for BMP and FGF signaling in regulating thyroid lineage specification from foregut endoderm in mouse and Xenopus. Thyroid progenitors derived from mouse PSCs can be matured into thyroid follicular organoids that provide functional secretion of thyroid hormones in vivo and rescue hypothyroid mice after transplantation. Moreover, by stimulating the same pathways we were also able to derive human thyroid progenitors from normal and disease-specific iPSCs generated from patients with hypothyroidism resulting from NKX2-1 haploinsufficiency. Our studies have therefore uncovered the regulatory mechanisms that underlie early thyroid organogenesis and provide a significant step toward cell-based regenerative therapy for hypothyroidism.

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Phosphoinositide 3-Kinase Regulates Glycolysis through Mobilization of Aldolase from the Actin Cytoskeleton

Juvekar

Lyssiotis

et al. 2016

Cell

318

211

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Summary The Phosphoinositide 3-Kinase (PI3K) pathway regulates multiple steps in glucose metabolism but also cytoskeletal functions, such as cell movement and attachment. Here we show that PI3K directly coordinates glycolysis with cytoskeletal dynamics in an AKT-independent manner. Growth factors or insulin stimulate the PI3K-dependent activation of Rac, leading to disruption of the actin cytoskeleton, release of filamentous actin-bound aldolase A and an increase in aldolase activity. Consistently, PI3K-, but not AKT-, SGK- or mTOR-inhibitors, cause a significant decrease in glycolysis at the step catalyzed by aldolase, while activating PIK3CA mutations have the opposite effect. These results point towards a master regulatory function of PI3K that integrates an epithelial cell’s metabolism and its form, shape and function, coordinating glycolysis with the energy-intensive dynamics of actin remodeling.

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Synergy of radiotherapy and PD-1 blockade in Kras-mutant lung cancer

et al. 2016

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Phosphoinositide 3-kinase inhibitors induce DNA damage through nucleoside depletion

Juvekar

Yadegarynia

et al. 2016

Proc. Natl. Acad. Sci. U.S.A.

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We previously reported that combining a phosphoinositide 3-kinase (PI3K) inhibitor with a poly-ADP Rib polymerase (PARP)-inhibitor enhanced DNA damage and cell death in breast cancers that have genetic aberrations in BRCA1 and TP53. Here, we show that enhanced DNA damage induced by PI3K inhibitors in this mutational background is a consequence of impaired production of nucleotides needed for DNA synthesis and DNA repair. Inhibition of PI3K causes a reduction in all four nucleotide triphosphates, whereas inhibition of the protein kinase AKT is less effective than inhibition of PI3K in suppressing nucleotide synthesis and inducing DNA damage. Carbon flux studies reveal that PI3K inhibition disproportionately affects the nonoxidative pentose phosphate pathway that delivers Rib-5-phosphate required for base ribosylation. In vivo in a mouse model of BRCA1-linked triple-negative breast cancer (K14-Cre BRCA1), the PI3K inhibitor BKM120 led to a precipitous drop in DNA synthesis within 8 h of drug treatment, whereas DNA synthesis in normal tissues was less affected. In this mouse model, combined PI3K and PARP inhibition was superior to either agent alone to induce durable remissions of established tumors. T riple-negative breast cancers, including BRCA1-linked breast cancers, frequently show activation of the PI3K pathway as a result of overexpression of epidermal growth factor receptor (EGFR) (1, 2) or insulin-like growth factor 1 receptor (IGFR) (3), and inhibition of the EGFR (1, 2, 4) and/or the PI3K/Nrf2 axis (5) prevents cancers arising from BRCA1 mutant mammary epithelial cells (MECs). In addition, activating mutations of PIK3CA, or loss of the inhibitory lipid phosphatases PTEN (phosphatase and tensin homolog) and INPP4B (inositol polyphosphate 4-phosphatase type II) (6, 7), suggest that the PI3K pathway is contributing to tumor growth and survival. Aside from their role in regulating the homeostasis of phospho-inositides, PTEN and INPP4B may have independent roles in DNA damage repair. A role for PTEN in the maintenance of genomic stability was identified (8); more recently, INPP4B was found to directly interact with BRCA1 and the serine/threonine protein kinase ATR, and its loss destabilizes these DNA damage repair complexes, effectively sensitizing INPP4B-deficient cells to poly-ADP Rib polymerase (PARP) inhibition (9).Despite the high incidence of predisposing lesions in the PI3K pathway, limited clinical activity has been observed with PI3K inhibitors as single-agent treatment in endocrine-resistant breast cancer, which may reflect bypass of PI3K-dependent mitogenic signaling by alternative signaling pathways such as the MAPK pathway. Therefore, concurrent inhibition of parallel and compensatory signaling networks to overcome resistance to PI3K inhibition is being investigated in clinical studies. This approach, however, carries the risk of overlapping toxicities of the targeted agents without sufficient efficacy because tumor cells may have greater plasticity for redundant signaling than normal tissues.Mul...

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A pilot study of the effects of mild systemic heating on human head and neck tumour xenografts: Analysis of tumour perfusion, interstitial fluid pressure, hypoxia and efficacy of radiation therapy

Winslow¹,

Eranki²,

Ullas³

et al. 2015

International Journal of Hyperthermia

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Purpose The tumour microenvironment is frequently hypoxic, poorly perfused, and exhibits abnormally high interstitial fluid pressure. These factors can significantly reduce efficacy of chemo and radiation therapies. The present study aims to determine whether mild systemic heating alters these parameters and improves response to radiation in human head and neck tumour xenografts in SCID mice. Materials and methods SCID mice were injected with FaDu cells (a human head and neck carcinoma cell line), or implanted with a resected patient head and neck squamous cell carcinoma grown as a xenograft, followed by mild systemic heating. Body temperature during heating was maintained at 39.5 ± 0.5 °C for 4 h. Interstitial fluid pressure (IFP), hypoxia and relative tumour perfusion in the tumours were measured at 2 and 24 h post-heating. Tumour vessel perfusion was measured 24 h post-heating, coinciding with the first dose of fractionated radiotherapy. Results Heating tumour-bearing mice resulted in significant decrease in intratumoural IFP, increased the number of perfused tumour blood vessels as well as relative tumour perfusion in both tumour models. Intratumoural hypoxia was also reduced in tumours of mice that received heat treatment. Mice bearing FaDu tumours heated 24 h prior to five daily radiation treatments exhibited significantly enhanced tumour response compared to tumours in control mice. Conclusions Mild systemic heating can significantly alter the tumour microenvironment of human head and neck tumour xenograft models, decreasing IFP and hypoxia while increasing microvascular perfusion. Collectively, these effects could be responsible for the improved response to radiotherapy.

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Soumya Ullas

Regeneration of Thyroid Function by Transplantation of Differentiated Pluripotent Stem Cells

Phosphoinositide 3-Kinase Regulates Glycolysis through Mobilization of Aldolase from the Actin Cytoskeleton

Synergy of radiotherapy and PD-1 blockade in Kras-mutant lung cancer

Phosphoinositide 3-kinase inhibitors induce DNA damage through nucleoside depletion

A pilot study of the effects of mild systemic heating on human head and neck tumour xenografts: Analysis of tumour perfusion, interstitial fluid pressure, hypoxia and efficacy of radiation therapy

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