Amy N. Ton scite author profile

Statistics. All studies were performed with biological replicates as described in Supplemental Tables 1-11. The data were analyzed with GraphPad Prism v.7 software using 2-tailed Student's t test and 2-way ANOVA Sidak or Tukey's multiple comparison tests. The Sidak test was used when comparing means between WT and FOP, and the Tukey test was used when means of both WT and FOP were compared together with other groups. The software R was used for heatmaps and PCA. P < 0.05 were considered statistically significant. Study approvals. All of the human study and sample collection procedures were reviewed and approved by the UCSF Committee on Human Research. All subjects provided informed consent prior to their participation in the study.

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Modeling Smith-Lemli-Opitz syndrome with induced pluripotent stem cells reveals a causal role for Wnt/β-catenin defects in neuronal cholesterol synthesis phenotypes

Francis

Ton

Yao

et al. 2016

Nat Med

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Smith-Lemli-Opitz syndrome (SLOS) is a malformation disorder caused by mutations in DHCR7, impairing the reduction of 7-dehydrocholesterol to cholesterol. SLOS results in cognitive impairment, behavioral abnormalities, and nervous system defects, though neither cellular targets nor affected signaling pathways are defined. Whether 7-dehydrocholesterol accumulation or cholesterol loss is primarily responsible for disease pathogenesis is also unclear. Using induced pluripotent stem cells (iPSCs) from SLOS subjects, we identified cellular defects leading to precocious neuronal specification within SLOS derived neural progenitors. We also demonstrated that 7-dehydrocholesterol accumulation, not cholesterol deficiency, is critical for SLOS-associated defects. We further identified downregulation of Wnt/β-catenin signaling as a key initiator of aberrant SLOS iPSCs differentiation through the direct inhibitory effects of 7-dehydrocholesterol on the formation of an active Wnt receptor complex. Activation of canonical Wnt signaling prevented the neural phenotypes observed in SLOS iPSCs, suggesting that Wnt signaling may be a promising therapeutic target for SLOS.

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Selective suppression of endothelial cytokine production by progesterone receptor

Goddard

Ton

Org

et al. 2013

Vascular Pharmacology

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Steroid hormones are well-recognized suppressors of the inflammatory response, however, their cell- and tissue-specific effects in the regulation of inflammation are far less understood, particularly for the sex-related steroids. To determine the contribution of progesterone in the endothelium, we have characterized and validated an in vitro culture system in which human umbilical vein endothelial cells constitutively express human progesterone receptor (PR). Using next generation RNA-sequencing, we identified a selective group of cytokines that are suppressed by progesterone both under physiological conditions and during pathological activation by lipopolysaccharide. In particular, IL-6, IL-8, CXCL2/3, and CXCL1 were found to be direct targets of PR, as determined by ChIP-sequencing. Regulation of these cytokines by progesterone was also confirmed by bead-based multiplex cytokine assays and quantitative PCR. These findings provide a novel role for PR in the direct regulation of cytokine levels secreted by the endothelium. They also suggest that progesterone-PR signaling in the endothelium directly impacts leukocyte trafficking in PR-expressing tissues.

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ACVR1R206H extends inflammatory responses in human induced pluripotent stem cell-derived macrophages

Matsuo

Lepinski

Chavez

et al. 2021

Bone

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ACVR1-activating mutation causes neuropathic pain and sensory neuron hyperexcitability in humans

Ton

Niu

et al. 2022

Pain

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Amy N. Ton

NF-κB/MAPK activation underlies ACVR1-mediated inflammation in human heterotopic ossification

Modeling Smith-Lemli-Opitz syndrome with induced pluripotent stem cells reveals a causal role for Wnt/β-catenin defects in neuronal cholesterol synthesis phenotypes

Selective suppression of endothelial cytokine production by progesterone receptor

ACVR1R206H extends inflammatory responses in human induced pluripotent stem cell-derived macrophages

ACVR1-activating mutation causes neuropathic pain and sensory neuron hyperexcitability in humans

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