Christopher A. Adase
University of California, San Diego
Network
Latest external collaboration on country level. Dive into details by clicking on the dots.
Publication
Featured researches published by Christopher A. Adase.
Journal of Biological Chemistry | 2016
Christopher A. Adase; Andrew W. Borkowski; Ling-juan Zhang; Michael R. Williams; Emi Sato; James A. Sanford; Richard L. Gallo
A critical function for skin is that when damaged it must simultaneously identify the nature of the injury, repair barrier function, and limit the intrusion of pathogenic organisms. These needs are carried out through the detection of damage-associated molecular patterns (DAMPs) and a response that includes secretion of cytokines, chemokines, growth factors, and antimicrobial peptides (AMPs). In this study, we analyzed how non-coding double-stranded RNA (dsRNAs) act as a DAMP in the skin and how the human cathelicidin AMP LL-37 might influence growth factor production in response to this DAMP. dsRNA alone significantly increased the expression of multiple growth factors in keratinocytes, endothelial cells, and fibroblasts. Furthermore, RNA sequencing transcriptome analysis found that multiple growth factors increase when cells are exposed to both LL-37 and dsRNA, a condition that mimics normal wounding. Quantitative PCR and/or ELISA validated that growth factors expressed by keratinocytes in these conditions included, but were not limited to, basic fibroblast growth factor (FGF2), heparin-binding EGF-like growth factor (HBEGF), vascular endothelial growth factor C (VEGFC), betacellulin (BTC), EGF, epiregulin (EREG), and other members of the transforming growth factor β superfamily. These results identify a novel role for DAMPs and AMPs in the stimulation of repair and highlight the complex interactions involved in the wound environment.
PLOS Genetics | 2016
Alon Peled; Ofer Sarig; Liat Samuelov; M. Bertolini; Limor Ziv; Daphna Weissglas-Volkov; M. Eskin-Schwartz; Christopher A. Adase; N. Malchin; Ron Bochner; Gilad Fainberg; Ilan Goldberg; Koji Sugawara; Avital Baniel; Daisuke Tsuruta; Chen Luxenburg; Noam Adir; Olivier Duverger; Maria I. Morasso; Stavit A. Shalev; Richard L. Gallo; Noam Shomron; Ralf Paus; Eli Sprecher
Despite recent advances in our understanding of the pathogenesis of ectodermal dysplasias (EDs), the molecular basis of many of these disorders remains unknown. In the present study, we aimed at elucidating the genetic basis of a new form of ED featuring facial dysmorphism, scalp hypotrichosis and hypodontia. Using whole exome sequencing, we identified 2 frameshift and 2 missense mutations in TSPEAR segregating with the disease phenotype in 3 families. TSPEAR encodes the thrombospondin-type laminin G domain and EAR repeats (TSPEAR) protein, whose function is poorly understood. TSPEAR knock-down resulted in altered expression of genes known to be regulated by NOTCH and to be involved in murine hair and tooth development. Pathway analysis confirmed that down-regulation of TSPEAR in keratinocytes is likely to affect Notch signaling. Accordingly, using a luciferase-based reporter assay, we showed that TSPEAR knock-down is associated with decreased Notch signaling. In addition, NOTCH1 protein expression was reduced in patient scalp skin. Moreover, TSPEAR silencing in mouse hair follicle organ cultures was found to induce apoptosis in follicular epithelial cells, resulting in decreased hair bulb diameter. Collectively, these observations indicate that TSPEAR plays a critical, previously unrecognized role in human tooth and hair follicle morphogenesis through regulation of the Notch signaling pathway.
Journal of Investigative Dermatology | 2017
Emi Sato; Ling-juan Zhang; Robert A. Dorschner; Christopher A. Adase; Biswa Choudhury; Richard L. Gallo
In this study, we report that TIP39, a parathyroid hormone ligand family member that was recently identified to be expressed in the skin, can induce decorin expression and enhance wound repair. Topical treatment of mice with TIP39 accelerated wound repair, whereas TIP39-deficient mice had delayed repair that was associated with formation of abnormal collagen bundles. To study the potential mechanism responsible for the action of TIP39 in the dermis, fibroblasts were cultured in three-dimensional collagen gels, a process that results in enhanced decorin expression unless activated to differentiate to adipocytes, whereupon these cells reduce expression of several proteoglycans, including decorin. Small interfering RNA-mediated silencing of parathyroid hormone 2 receptor (PTH2R), the receptor for TIP39, suppressed the expression of extracellular matrix-related genes, including decorin, collagens, fibronectin, and matrix metalloproteases. Skin wounds in TIP39-/- mice had decreased decorin expression, and addition of TIP39 to cultured fibroblasts induced decorin and increased phosphorylation and nuclear translocation of CREB. Fibroblasts differentiated to adipocytes and treated with TIP39 also showed increased decorin and production of chondroitin sulfate. Furthermore, the skin of PTH2R-/- mice showed abnormal extracellular matrix structure, decreased decorin expression, and skin hardness. Thus, the TIP39-PTH2R system appears to be a previously unrecognized mechanism for regulation of extracellular matrix formation and wound repair.
Journal of Visualized Experiments | 2017
Fengwu Li; Christopher A. Adase; Ling-juan Zhang
The keratinocyte (KC) is the predominant cell type in the epidermis, the outermost layer of the skin. Epidermal KCs play a critical role in providing skin defense by forming an intact skin barrier against environmental insults, such as UVB irradiation or pathogens, and also by initiating an inflammatory response upon those insults. Here we describe methods to isolate KCs from neonatal mouse skin and from adult mouse tail skin. We also describe culturing conditions using defined growth supplements (dGS) in comparison to chelexed fetal bovine serum (cFBS). Functionally, we show that both neonatal and adult KCs are highly responsive to high calcium-induced terminal differentiation, tight junction formation and stratification. Additionally, cultured adult KCs are susceptible to UVB-triggered cell death and can release large amounts of TNF upon UVB irradiation. Together, the methods described here will be useful to researchers for the setup of in vitro models to study epidermal biology in the neonatal mouse and/or the adult mouse.
Journal of Investigative Dermatology | 2016
Emi Sato; Jun Muto; Ling-juan Zhang; Christopher A. Adase; James A. Sanford; Toshiya Takahashi; Teruaki Nakatsuji; Ted B. Usdin; Richard L. Gallo
Journal of Investigative Dermatology | 2016
Ron Bochner; Liat Samuelov; Ofer Sarig; Qiaoli Li; Christopher A. Adase; Ofer Isakov; N. Malchin; Dan Vodo; Ronna Shayevitch; Alon Peled; Benjamin D. Yu; Gilad Fainberg; Emily Warshauer; Noam Adir; Noam Erez; Andrea Gat; Yehonatan Gottlieb; Tova Rogers; M. Pavlovsky; Ilan Goldberg; Noam Shomron; Aileen Sandilands; Linda E. Campbell; Stephanie F. MacCallum; W.H. Irwin McLean; Gil Ast; Richard L. Gallo; Jouni Uitto; Eli Sprecher
Journal of Investigative Dermatology | 2018
Nikhil N. Kulkarni; Christopher A. Adase; Richard L. Gallo
Journal of Investigative Dermatology | 2017
Nikhil N. Kulkarni; Christopher A. Adase; Ling-juan Zhang; Andrew W. Borkowski; Fengwu Li; James A. Sanford; Daniel J. Coleman; Carlos Aguilera; Arup K. Indra; Richard L. Gallo
Journal of Investigative Dermatology | 2017
Nikhil N. Kulkarni; Christopher A. Adase; Ling-juan Zhang; Andrew W. Borkowski; Fengwu Li; James A. Sanford; Daniel J. Coleman; Carlos Aguilera; Arup K. Indra; Richard L. Gallo
Journal of Investigative Dermatology | 2017
Nikhil N. Kulkarni; Christopher A. Adase; Ling-juan Zhang; Andrew W. Borkowski; Fengwu Li; James A. Sanford; Daniel J. Coleman; Carlos Aguilera; Arup K. Indra; Richard L. Gallo