Abstract

PURPOSE: Lymphedema is limb swelling caused by lymphatic dysfunction. It occurs in 30% of patients that undergo axillary lymph node dissection in the treatment of breast cancer. There is no cure for this disease. Understanding the mechanisms of lymphatic growth will play a pivotal role in developing therapeutic strategies against these conditions. Visualization of lymphangiogenesis and functional assessment remains a challenge. Intravital two-photon microscopy (IVM) is a powerful imaging tool for investigating various biological processes in live animals. Tissue nanotransfection technology (TNT) facilitates a direct, transcutaneous non-viral vector gene delivery using a chip with nanochannel poration in a rapid (<100ms) focused electric field. TNT was used in this study to deliver the genetic cargo in the murine tail lymphedema to assess the lymphangiogenesis. The purpose of this study is to experimentally evaluate the applicability of IVM to visualize and quantify lymphatics. METHODS: The murine tail model of lymphedema was utilized. A 3 mm full thickness skin excision and lymphatic vessel disruption was performed 20 mm from the base of the tail in twelve C57BL/6 mice. TNT was applied to the murine tail (day 0) directly at the surgical site with genetic cargo loaded into the TNT reservoir: Group I (control) was given pCMV6 (expression vector backbone alone) (n=6); Group II had pCMV6-Prox1 (n=6). Post-TNT (day 10), a 3 cm segment of murine tail was deskinned distal to the site of occlusion to optimize visualization. FITC-Dextran (2000 kD) injected intradermally at the distal tail region for lymphatic uptake. Lymphatic vessels are visualized at the second skin excision site with the Leica SP8 Confocal/Multiphoton Microscope and assessed for number of branching points to determine the newly formed lymphatics. Lymphatic vessel density was also observed by immunostaining with anti-Podoplanin antibody. RESULTS:The experimental group II exhibited increased branching points (3-fold) using filamentation analysis compared to control group I at the site of TNT treatment (n=6, p<0.05). Increased lymphatic vessel density was also observed with Podoplanin immunostaining post-TNT application. Intensity quantification of immunohistochemistry revealed greater expression of Podoplanin in Group II when compared to Group I (n=6, p<0.05). CONCLUSION:This study demonstrates a novel, powerful imaging tool for investigating lymphatic vessels in live murine tail model of lymphedema. Intravital microscopy can be utilized for functional assessment of lymphatics and visualization of lymphangiogenesis following gene-based therapy.

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