TY - JOUR
T1 - Hyaluronan turnover and hypoxic brown adipocytic differentiation are co-localized with ossification in calcified human aortic valves
AU - Stephens, Elizabeth H.
AU - Saltarrelli, Jerome G.
AU - Balaoing, Liezl R.
AU - Baggett, L. Scott
AU - Nandi, Indrajit
AU - Anderson, Kristin M.
AU - Morrisett, Joel D.
AU - Reardon, Michael J.
AU - Simpson, Melanie A.
AU - Weigel, Paul H.
AU - Olmsted-Davis, Elizabeth A.
AU - Davis, Alan R.
AU - Grande-Allen, K. Jane
N1 - Funding Information:
The authors thank the Rice University Institute for Biosciences and Bioengineering Medical Innovations Award for funding. Supported in part by NIH grants HL63090 (J.D.M.) and HL104377 (K.J.G.-A) and a Hertz Foundation Graduate Fellowship (E.H.S.).
PY - 2012/11/15
Y1 - 2012/11/15
N2 - The calcification process in aortic stenosis has garnered considerable interest but only limited investigation into selected signaling pathways. This study investigated mechanisms related to hypoxia, hyaluronan homeostasis, brown adipocytic differentiation, and ossification within calcified valves. Surgically explanted calcified aortic valves (n=14) were immunostained for markers relevant to these mechanisms and evaluated in the center (NodCtr) and edge (NodEdge) of the calcified nodule (NodCtr), tissue directly surrounding nodule (NodSurr); center and tissue surrounding small "prenodules" (PreNod, PreNodSurr); and normal fibrosa layer (CollFibr). Pearson correlations were determined between staining intensities of markers within regions. Ossification markers primarily localized to NodCtr and NodEdge, along with markers related to hyaluronan turnover and hypoxia. Markers of brown adipocytic differentiation were frequently co-localized with markers of hypoxia. In NodCtr and NodSurr, brown fat and ossification markers correlated with hyaluronidase-1, whereas these markers, as well as hypoxia, correlated with hyaluronan synthases in NodEdge. The protein product of tumor necrosis factor-α stimulated gene-6 strongly correlated with ossification markers and hyaluronidase in the regions surrounding the nodules (NodSurr, PreNodSurr). In conclusion, this study suggests roles for hyaluronan homeostasis and the promotion of hypoxia by cells demonstrating brown fat markers in calcific aortic valve disease.
AB - The calcification process in aortic stenosis has garnered considerable interest but only limited investigation into selected signaling pathways. This study investigated mechanisms related to hypoxia, hyaluronan homeostasis, brown adipocytic differentiation, and ossification within calcified valves. Surgically explanted calcified aortic valves (n=14) were immunostained for markers relevant to these mechanisms and evaluated in the center (NodCtr) and edge (NodEdge) of the calcified nodule (NodCtr), tissue directly surrounding nodule (NodSurr); center and tissue surrounding small "prenodules" (PreNod, PreNodSurr); and normal fibrosa layer (CollFibr). Pearson correlations were determined between staining intensities of markers within regions. Ossification markers primarily localized to NodCtr and NodEdge, along with markers related to hyaluronan turnover and hypoxia. Markers of brown adipocytic differentiation were frequently co-localized with markers of hypoxia. In NodCtr and NodSurr, brown fat and ossification markers correlated with hyaluronidase-1, whereas these markers, as well as hypoxia, correlated with hyaluronan synthases in NodEdge. The protein product of tumor necrosis factor-α stimulated gene-6 strongly correlated with ossification markers and hyaluronidase in the regions surrounding the nodules (NodSurr, PreNodSurr). In conclusion, this study suggests roles for hyaluronan homeostasis and the promotion of hypoxia by cells demonstrating brown fat markers in calcific aortic valve disease.
KW - Aortic valve
KW - Brown adipocytes
KW - Calcification
KW - Hyaluronan
KW - Hypoxia
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U2 - 10.1016/j.prp.2012.08.001
DO - 10.1016/j.prp.2012.08.001
M3 - Article
C2 - 23017666
AN - SCOPUS:84868627229
SN - 0344-0338
VL - 208
SP - 642
EP - 650
JO - Pathology Research and Practice
JF - Pathology Research and Practice
IS - 11
ER -