Intravital Longitudinal Three-Photon Imaging of Lymphocyte Migration in the Mouse Spleen.

Abstract

Abstract For the last 20 years, intravital two-photon (2P) imaging has been a powerful tool to visualize lymphocyte dynamics in mouse lymphoid organs such as bone marrows and lymph nodes. Although spleen is a key lymphoid organ for adaptive immunity against blood-derived antigens, the lymphocyte dynamics in the spleen are poorly understood because intravital 2P imaging of spleen is challenging. Visualizing the white pulp in the spleen where most lymphocytes are located requires the excitation light to propagate through the red pulp which contains a lot of blood, causing high light-scattering. In addition, intravital spleen imaging suffers from motion artifact due to the mouse breathing motion. To overcome these challenges, we applied three-photon (3P) microscopy for spleen imaging, which can reduce light scattering and improve image contrast in deeper regions compared to 2P microscopy. We also designed a new implantable, chronic imaging window for reducing spleen motion in our up-light microscope. We could identify white pulp regions by in vivo labeling of the marginal zone of white pulp. Using 3P microscopy at 1300 nm wavelength, we could visualize EGFP+ lymphocytes in white pulps at approximately 400–500 μm depth below the surface while 2P microscopy at 920 nm could only reach imaging depths of 160–250 μm in the same region. We then determined the temperature of the imaging window that is required for maintaining normal lymphocyte motility during imaging by monitoring the lymphocyte motility at different temperatures. This intravital longitudinal 3P imaging technique has the potential to examine lymphocyte dynamics in blood-derived antigen-induced inflammatory process in the spleen.