Chemotherapy-Induced Thymic Involution: An Ultrastructural Study

Endogenous thymic repair is quite complex, demanding coordinated thymocyte and thymic stromal responses for T cell development and establishment of central tolerance. While the importance of thymic stroma, notably cortical (cTEC) and medullary (mTEC) thymic epithelial cells, has been shown in gain- and loss-of-function studies, endogenous thymic epithelial repair has never been resolved ultrastructurally. Using Transmission Electron Microscopy (TEM), we analyzed morphometrically thymi in mice receiving Cyclophosphamide (CTX). In vehicle-treated mice, the cortex was populous with thymocytes neighboring cTEC, which extended long cytoplasmic processes into a dendritic meshwork, called “cytoreticulum”. In CTX-treated mice though, thymocytes were scarcely met in the cortex and TEC appeared more circular/ellipsoid. The cytoreticulum was evidently collapsed, increasing total contact surface area among cTEC/mTEC subsets. Despite that thymic macrophages primarily mediate clearance of thymocytes failing positive/negative selection, those in CTX-treated thymi were rich in secondary lysosomes and many were found phagocytosing TEC. The surviving TEC in CTX-treated mice had increased autophagolysosomes per surface area unit of TEC cytoplasm compared to vehicle-treated ones. Analysis via intensity thresholding revealed higher electron density of enclosed particles, consistent with the presence of partly-digested amorphous material, indicating membranous organelle self-digestion (i.e., stress macroautophagy). These data propose an emerging hypothesis that survival of thymic epithelium following cytotoxic insult is mediated via a collective stress response involving macroautophagy activation in TEC. Funded by: 1)AAI careers in immunology Fellowship - trainee 2)new investigator's start up funds (PI)