• Resp Res · Jan 2015

    Comparative Study

    Second harmonic generation microscopy reveals altered collagen microstructure in usual interstitial pneumonia versus healthy lung.

    • Robert Matthew Kottmann, Jesse Sharp, Kristina Owens, Peter Salzman, Guang-Qian Xiao, Richard P Phipps, Patricia J Sime, Edward B Brown, and Seth W Perry.
    • Department of Medicine, University of Rochester, Rochester, NY, USA. Matt_Kottmann@URMC.Rochester.edu.
    • Resp Res. 2015 Jan 1; 16: 61.

    BackgroundIt is not understood why some pulmonary fibroses such as cryptogenic organizing pneumonia (COP) respond well to treatment, while others like usual interstitial pneumonia (UIP) do not. Increased understanding of the structure and function of the matrix in this area is critical to improving our understanding of the biology of these diseases and developing novel therapies. The objectives herein are to provide new insights into the underlying collagen- and matrix-related biological mechanisms driving COP versus UIP.MethodsTwo-photon second harmonic generation (SHG) and excitation fluorescence microscopies were used to interrogate and quantify differences between intrinsic fibrillar collagen and elastin matrix signals in healthy, COP, and UIP lung.ResultsCollagen microstructure was different in UIP versus healthy lung, but not in COP versus healthy, as indicated by the ratio of forward-to-backward propagating SHG signal (FSHG/BSHG). This collagen microstructure as assessed by FSHG/BSHG was also different in areas with preserved alveolar architecture adjacent to UIP fibroblastic foci or honeycomb areas versus healthy lung. Fibrosis was evidenced by increased col1 and col3 content in COP and UIP versus healthy, with highest col1:col3 ratio in UIP. Evidence of elastin breakdown (i.e. reduced mature elastin fiber content), and increased collagen:mature elastin ratios, were seen in COP and UIP versus healthy.ConclusionsFibrillar collagen's subresolution structure (i.e. "microstructure") is altered in UIP versus COP and healthy lung, which may provide novel insights into the biological reasons why unlike COP, UIP is resistant to therapies, and demonstrates the ability of SHG microscopy to potentially distinguish treatable versus intractable pulmonary fibroses.

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