Pearly Yong scite author profile

Inflammatory skin diseases including atopic dermatitis (AD) and psoriasis (PSO) are underpinned by dendritic cell (DC)–mediated T cell responses. Currently, the heterogeneous human cutaneous DC population is incompletely characterized, and its contribution to these diseases remains unclear. Here, we performed index-sorted single-cell flow cytometry and RNA sequencing of lesional and nonlesional AD and PSO skin to identify macrophages and all DC subsets, including the newly described mature LAMP3+BIRC3+ DCs enriched in immunoregulatory molecules (mregDC) and CD14+ DC3. By integrating our indexed data with published skin datasets, we generated a myeloid cell universe of DC and macrophage subsets in healthy and diseased skin. Importantly, we found that CD14+ DC3s increased in PSO lesional skin and co-produced IL1B and IL23A, which are pathological in PSO. Our study comprehensively describes the molecular characteristics of macrophages and DC subsets in AD and PSO at single-cell resolution, and identifies CD14+ DC3s as potential promoters of inflammation in PSO.

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One-step derivation of cardiomyocytes and mesenchymal stem cells from human pluripotent stem cells

Wei

Tan

Manasi

et al. 2012

Stem Cell Research

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Cardiomyocytes (CMs) and mesenchymal stem cells (MSCs) are important cell types for cardiac repair post myocardial infarction. Here we proved that both CMs and MSCs can be simultaneously generated from human induced pluripotent stem cells (hiPSCs) via a pro-mesoderm differentiation strategy. Two hiPSC lines, hiPSC (1) and hiPSC (2) were generated from human dermal fibroblasts using OCT-4, SOX-2, KLF-4, c-Myc via retroviral-based reprogramming. H9 human embryonic stem cells (hESCs) served as control. CMs and MSCs were co-generated from hiPSCs and hESCs via embryoid body-dependent cardiac differentiation protocol involving a serum-free and insulin-depleted medium containing a p38 MAPK inhibitor, SB 203580. Comparing to bone marrow and umbilical cord blood-derived MSCs, hiPSC-derived MSCs (iMSCs) expressed common MSC markers and were capable of adipogenesis, osteogenesis and chondrogenesis. Moreover, iMSCs continuously proliferated for more than 32 population doublings without cellular senescence and showed superior pro-angiogenic and wound healing properties. In summary, we generated a large number of homogenous MSCs in conjunction with CMs in a low-cost and efficient one step manner. Functionally competent CMs and MSCs co-generated from hiPSCs may be useful for autologous cardiac repair.

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Endothelial microparticles: missing link in endothelial dysfunction?

Yong

Koh

Shim

2012

Eur J Prev Cardiolog

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Vascular homeostasis is an integral reflection of quiescent, but competent endothelium. Endothelial microparticles (EMPs) are circulating submicron-sized membranous vesicles released by endothelium that are increasingly recognized and play a multitude of biological roles reflecting competency of endothelial function and vascular biology. EMPs have been shown to act as primary and secondary messengers of vascular inflammation, thrombosis, vasomotor response, angiogenesis, and endothelial survival. These often-neglected vesicles are emerging as potentially useful indicators of dysfunctioning endothelium, whereby differential presence of EMPs is linked to disease manifestation. In this review, we outline the evolving understanding of EMPs from mere passive vesiculation to active messenger in pathophysiological responses. Current evidence implicating EMPs in cardiopulmonary, renal, cerebral, and metabolic disorders warrants vigorous clinical validation. While studies of EMPs face significant technical challenges that await standardization and consolidation, unravelling its biological significance in endothelial dysfunction could herald the advent of novel noninvasive surveillance platforms for vascular health, risk stratification, and disease prognostication.

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Phasic modulation of Wnt signaling enhances cardiac differentiation in human pluripotent stem cells by recapitulating developmental ontogeny

Mehta

Ramachandra

Sequiera

et al. 2014

Biochimica et Biophysica Acta (BBA) - Molecular Cell Research

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Cardiomyocytes (CMs) derived from human pluripotent stem cells (hPSCs) offer immense value in studying cardiovascular regenerative medicine. However, intrinsic biases and differential responsiveness of hPSCs towards cardiac differentiation pose significant technical and logistic hurdles that hamper human cardiomyocyte studies. Tandem modulation of canonical and non-canonical Wnt signaling pathways may play a crucial role in cardiac development that can efficiently generate cardiomyocytes from pluripotent stem cells. Our Wnt signaling expression profiles revealed that phasic modulation of canonical/non-canonical axis enabled orderly recapitulation of cardiac developmental ontogeny. Moreover, evaluation of 8 hPSC lines showed marked commitment towards cardiac-mesoderm during the early phase of differentiation, with elevated levels of canonical Wnts (Wnt3 and 3a) and Mesp1. Whereas continued activation of canonical Wnts was counterproductive, its discrete inhibition during the later phase of cardiac differentiation was accompanied by significant up-regulation of non-canonical Wnt expression (Wnt5a and 11) and enhanced Nkx2.5(+) (up to 98%) populations. These Nkx2.5(+) populations transited to contracting cardiac troponin T-positive CMs with up to 80% efficiency. Our results suggest that timely modulation of Wnt pathways would transcend intrinsic differentiation biases of hPSCs to consistently generate functional CMs that could facilitate their scalable production for meaningful clinical translation towards personalized regenerative medicine.

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Pearly Yong

Single-Cell Analysis of Human Mononuclear Phagocytes Reveals Subset-Defining Markers and Identifies Circulating Inflammatory Dendritic Cells

Single-cell analysis of human skin identifies CD14+ type 3 dendritic cells co-producing IL1B and IL23A in psoriasis

One-step derivation of cardiomyocytes and mesenchymal stem cells from human pluripotent stem cells

Endothelial microparticles: missing link in endothelial dysfunction?

Phasic modulation of Wnt signaling enhances cardiac differentiation in human pluripotent stem cells by recapitulating developmental ontogeny

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