Dong‐Jin Yang scite author profile

SummaryAge-associated changes in stem cell populations have been implicated in age-related diseases, including cancer. However, little is known about the underlying molecular mechanisms that link aging to the modulation of adult stem cell populations. Drosophila midgut is an excellent model system for the study of stem cell renewal and aging. Here we describe an age-related increase in the number and activity of intestinal stem cells (ISCs) and progenitor cells in Drosophila midgut. We determined that oxidative stress, induced by paraquat treatment or loss of catalase function, mimicked the changes associated with aging in the midgut. Furthermore, we discovered an age-related increase in the expression of PVF2, a Drosophila homologue of human PDGF/VEGF, which was associated with and required for the age-related changes in midgut ISCs and progenitor cell populations. Taken together, our findings suggest that PDGF/VEGF may play a central role in age-related changes in ISCs and progenitor cell populations, which may contribute to aging and the development of cancer stem cells.

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Anoctamin 1 Contributes to Inflammatory and Nerve-Injury Induced Hypersensitivity

Lee

Cho

Jung

et al. 2014

Mol Pain

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BackgroundVarious pathological conditions such as inflammation or injury can evoke pain hypersensitivity. That represents the response to innocuous stimuli or exaggerated response to noxious stimuli. The molecular mechanism based on the pain hypersensitivity is associated with changes in many of ion channels in dorsal-root ganglion (DRG) neurons. Anoctamin 1 (ANO1/TMEM16A), a Ca2+ activated chloride channel is highly visible in small DRG neurons and responds to heat. Mice with an abolished function of ANO1 in DRG neurons demonstrated attenuated pain-like behaviors when exposed to noxious heat, suggesting a role in acute thermal nociception. In this study, we further examined the function of ANO1 in mediating inflammation- or injury-induced hyperalgesia or allodynia.ResultsUsing Advillin/Ano1 fl/fl (Adv/Ano1 fl/fl ) mice that have a functional ablation of Ano1 mainly in DRG neurons, we were able to determine its role in mediating thermal hyperalgesia and mechanical allodynia induced by inflammation or nerve injury. The thermal hyperalgesia and mechanical allodynia induced by carrageenan injection and spared-nerve injury were significantly reduced in Adv/Ano1 fl/fl mice. In addition, flinching or licking behavior after bradykinin or formalin injection was also significantly reduced in Adv/Ano1 fl/fl mice. Since pathological conditions augment nociceptive behaviors, we expected ANO1′s contribution to the excitability of DRG neurons. Indeed, the application of inflammatory mediators reduced the threshold for action potential (rheobase) or time for induction of the first action potential in DRG neurons isolated from control (Ano1 fl/fl ) mice. These parameters for neuronal excitability induced by inflammatory mediators were not changed in Adv/Ano1 fl/fl mice, suggesting an active contribution of ANO1 in augmenting the neuronal excitability.ConclusionsIn addition to ANO1's role in mediating acute thermal pain as a heat sensor, ANO1 is also capable of augmenting the excitability of DRG neurons under inflammatory or neuropathic conditions and thereby aggravates inflammation- or tissue injury-induced pathological pain.

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Synthetic MRI: Technologies and Applications in Neuroradiology

Yang

Lee

et al. 2020

Magnetic Resonance Imaging

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Synthetic MRI is a technique that synthesizes contrast‐weighted images from multicontrast MRI data. There have been advances in synthetic MRI since the technique was introduced. Although a number of synthetic MRI methods have been developed for quantifying one or more relaxometric parameters and for generating multiple contrast‐weighted images, this review focuses on several methods that quantify all three relaxometric parameters (T1, T2, and proton density) and produce multiple contrast‐weighted images. Acquisition, quantification, and image synthesis techniques are discussed for each method. We discuss the image quality and diagnostic accuracy of synthetic MRI methods and their clinical applications in neuroradiology. Based on this analysis, we highlight areas that need to be addressed for synthetic MRI to be widely implemented in the clinic. Level of Evidence 5 Technical Efficacy Stage 1

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Axonal Neuropathy-associated TRPV4 Regulates Neurotrophic Factor-derived Axonal Growth

Jang

Jung

Kim

et al. 2012

Journal of Biological Chemistry

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Background:Because genetic linkage studies identified mutations in TRPV4 in patients with peripheral neuropathies, the function of TRPV4 in peripheral neurons is questioned. Results: TRPV4 was found to promote neurotrophic factor-driven neuritogenesis. Conclusion: TRPV4 mediates neurotrophic factor-driven neuritogenesis in peripheral neurons. Significance: This explains molecular mechanisms underlying neuritogenesis and maintenance of peripheral nerves.

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Reference gene validation for qPCR in rat carotid body during postnatal development

et al. 2011

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BackgroundThe carotid bodies are the main arterial oxygen chemoreceptors in mammals. Afferent neural output from the carotid bodies to brainstem respiratory and cardiovascular nuclei provides tonic input and mediates important protective responses to acute and chronic hypoxia. It is widely accepted that the selection of reference genes for mRNA normalization in quantitative real-time PCR must be validated for a given tissue and set of conditions. This is particularly important for studies in carotid body during early postnatal maturation as the arterial oxygen tension undergoes major changes from fetal to postnatal life, which may affect reference gene expression. In order to determine the most stable and suitable reference genes for the study of rat carotid body during development, six commonly used reference genes, β-actin, RPII (RNA polymerase II), PPIA (peptidyl-proyl-isomerase A), TBP (TATA-box binding protein), GAPDH, and 18s rRNA, were evaluated in two age groups (P0-1 and P14-16) under three environmental oxygen conditions (normoxia, chronic hypoxia and chronic hyperoxia) using the three most commonly used software programs, geNorm, NormFinder and BestKeeper.FindingsThe three programs produced similar results but the reference gene rankings were not identical between programs or experimental conditions. Overall, 18s rRNA was the least stable reference gene for carotid body and, when hyperoxia and/or hypoxia conditions were included, actin was similarly unstable.ConclusionsReference or housekeeping gene expression for qPCR studies of carotid body during postnatal development may vary with developmental stage and environmental conditions. Selection of the best reference gene or combination of reference genes for carotid body development studies should take environmental conditions into account. Two commonly used reference genes, 18s rRNA and actin, may be unsuitable for studies of carotid body maturation, especially if the study design includes altered oxygen conditions.

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Dong‐Jin Yang

Age‐related changes in Drosophila midgut are associated with PVF2, a PDGF/VEGF‐like growth factor

Anoctamin 1 Contributes to Inflammatory and Nerve-Injury Induced Hypersensitivity

Synthetic MRI: Technologies and Applications in Neuroradiology

Axonal Neuropathy-associated TRPV4 Regulates Neurotrophic Factor-derived Axonal Growth

Reference gene validation for qPCR in rat carotid body during postnatal development

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