Lysyl hydroxylase 2 induces a collagen cross-link switch in tumor stroma
Yulong Chen, … , Mitsuo Yamauchi, Jonathan M. Kurie
Yulong Chen, … , Mitsuo Yamauchi, Jonathan M. Kurie
Published February 9, 2015
Citation Information: J Clin Invest. 2015;125(3):1147-1162. https://doi.org/10.1172/JCI74725.
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Research Article Oncology

Lysyl hydroxylase 2 induces a collagen cross-link switch in tumor stroma

Abstract

Epithelial tumor metastasis is preceded by an accumulation of collagen cross-links that heighten stromal stiffness and stimulate the invasive properties of tumor cells. However, the biochemical nature of collagen cross-links in cancer is still unclear. Here, we postulated that epithelial tumorigenesis is accompanied by changes in the biochemical type of collagen cross-links. Utilizing resected human lung cancer tissues and a p21CIP1/WAF1-deficient, K-rasG12D-expressing murine metastatic lung cancer model, we showed that, relative to normal lung tissues, tumor stroma contains higher levels of hydroxylysine aldehyde–derived collagen cross-links (HLCCs) and lower levels of lysine aldehyde–derived cross-links (LCCs), which are the predominant types of collagen cross-links in skeletal tissues and soft tissues, respectively. Gain- and loss-of-function studies in tumor cells showed that lysyl hydroxylase 2 (LH2), which hydroxylates telopeptidyl lysine residues on collagen, shifted the tumor stroma toward a high-HLCC, low-LCC state, increased tumor stiffness, and enhanced tumor cell invasion and metastasis. Together, our data indicate that LH2 enhances the metastatic properties of tumor cells and functions as a regulatory switch that controls the relative abundance of biochemically distinct types of collagen cross-links in the tumor stroma.

Authors

Yulong Chen, Masahiko Terajima, Yanan Yang, Li Sun, Young-Ho Ahn, Daniela Pankova, Daniel S. Puperi, Takeshi Watanabe, Min P. Kim, Shanda H. Blackmon, Jaime Rodriguez, Hui Liu, Carmen Behrens, Ignacio I. Wistuba, Rosalba Minelli, Kenneth L. Scott, Johannah Sanchez-Adams, Farshid Guilak, Debananda Pati, Nishan Thilaganathan, Alan R. Burns, Chad J. Creighton, Elisabeth D. Martinez, Tomasz Zal, K. Jane Grande-Allen, Mitsuo Yamauchi, Jonathan M. Kurie

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Figure 8

A LH2-regulated switch in the type of collagen cross-link in tumors.

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A LH2-regulated switch in the type of collagen cross-link in tumors. (A ...
(A and B) Quantification of collagen cross-links (mol/mol of collagen) in human lung adenocarcinomas (tumor) and adjacent normal lung (normal) resected from patients (n = 12). Total cross-links in A represent the sum of cross-links in B. Results are expressed as mean ± SD. (C and D) Quantification of collagen cross-links (mol/mol of collagen) in tumor-bearing lung tissues (n = 5, TBL) from Cdkn1aWT K-rasLA1 mice (n = 2) and KC mice (n = 3) and age-matched non-tumor-bearing lung tissues (n = 9, CL) from mice that are Cdkn1aWT (n = 3) or -null (n = 6). Total cross-links in C represent the sum of cross-links in D. Results are expressed as mean ± SD. (E and F) Quantification of collagen cross-links (mol/mol of collagen) in tumors generated by injecting KC2 cells stably transfected with LH2 shRNA (SH1, n = 7) or control shRNA (SCR, n = 5) in Cdkn1aWT mice. Total cross-links in F represent the sum of cross-links in E. Mean ± SD. P values, 2-tailed Student’s t test.