Paolo G Mignatti

Biosketch / Results /

Paolo Mignatti

Research Associate Professor, Department of Medicine
Medicine

Contact Info

Address
301 East 17th Street
New York, NY 10003

212/598-7642
Paolo.Mignatti@nyumc.org

Research Summary

See pdf file attached.

Research Interests

Growth factors and proteinases in tumor invasion and angiogenesis.

Research Documents


ELEVATED EXPRESSION OF PERIOSTIN IN HUMAN OSTEOARTHRITIS CARTILAGE AND ITS POTENTIAL ROLE IN MATRIX DEGRADATION VIA MMP-13
Attur, M; Yang, Q; Shimada, K; Tachida, Y; Nagase, H; Mignatti, P; Statman, L; Palmer, G; Kirsch, T; Beier, F; Abramson, SB
2015-06-18; 1522-9653,Osteoarthritis & cartilage - id: 1630622, year: 2015

Elevated expression of periostin in human osteoarthritic cartilage and its potential role in matrix degradation via matrix metalloproteinase-13
Attur, Mukundan; Yang, Qing; Shimada, Kohei; Tachida, Yuki; Nagase, Hiroyuki; Mignatti, Paolo; Statman, Lauren; Palmer, Glyn; Kirsch, Thorsten; Beier, Frank; Abramson, Steven B
2015-06-21; 1530-6860,FASEB journal - id: 1631022, year: 2015 JOURNAL ARTICLE

Membrane-Type 1 Matrix Metalloproteinase Downregulates Fibroblast Growth Factor-2 Binding to the Cell Surface and Intracellular Signaling
Tassone, Evelyne; Valacca, Cristina; Mignatti, Paolo
2015-08-16; 1097-4652,Journal of cellular physiology - id: 1720552, year: 2015 Journal Article

Membrane-type 1 matrix metalloproteinase controls osteo-and chondrogenesis by a proteolysis-independent mechanism mediated by its cytoplasmic tail
Yang, Q; Attur, M; Kirsch, T; Lee, Y J; Yakar, S; Liu, Z; Abramson, S B; Mignatti, P
2015-06-30; 1063-4584,Osteoarthritis & cartilage - id: 1643542, year: 2015

MEMBRANE-TYPE 1 MATRIX METALLOPROTEINASE CONTROLS OSTEO- AND CHONDROGENESIS BY A PROTEOLYSIS-INDEPENDENT MECHANISM MEDIATED BY ITS CYTOPLASMIC TAIL
Yang, Q; Attur, M; Kirsch, T; Lee, YJ; Yakar, S; Liu, Z; Abramson, SB; Mignatti, P
2015-06-18; 1522-9653,Osteoarthritis & cartilage - id: 1630782, year: 2015