Importance of TFEB and TFE3 in Mediating Lysosomal and Mitochondrial Adaptations

Abstract

Autophagy is the process through which damaged cellular components are degraded by the lysosome, and it is essential for the overall maintenance of the cell. Mitochondria are recycled through a selective form of autophagy, known as mitophagy, in which dysfunctional mitochondria are poly‐ubiquitinated, engulfed in an autophagosomal membrane and transported to the lysosome for degradation. Chronic contractile activity (CCA) alters mitophagy flux in muscle, and this coincides with the activation of lysosomal biogenesis, which precedes changes in mitochondrial content. Thus, it is proposed that the clearance of dysfunctional mitochondria through the lysosomes may play an important role in mediating mitochondrial adaptations to CCA. We sought to understand the transcriptional regulation of lysosomal biogenesis brought about by CCA, by investigating the transcriptional regulators TFEB and TFE3, and their relationship to mitochondrial content. TFEB and TFE3 were silenced using siRNA in C2C12 myotubes, and subjected to 3 days of stimulation (3hr/day) to induce CA. Following a single bout, TFEB and TFE3 were elevated in both the nuclear and cytosolic fractions, which coincided with increases in Cathepsin D, preceding the increases in VDAC seen following 3 days of stimulation. The loss of TFEB or TFE3 individually had no impact on lysosomal adaptations, since LAMP1 and Cathepsin D remained responsive to CCA, demonstrating redundancy in role of TFEB and TFE3 in mediating lysosomal biogenesis. However, in the absence of both transcription factors, CCA‐induced lysosomal adaptations were reduced, illustrating their collective importance in mediating lysosomal biogenesis. Interestingly, the absence of TFEB had no effect on mitochondrial adaptations, measured by COX I and IV protein content, however this adaptation to CCA was blunted in the absence of TFE3. These results suggest that while TFEB and TFE3 may exhibit compensatory roles in mediating lysosomal biogenesis, TFE3 alone appears to be important for the mitochondrial response to CCA. Since, lysosomal adaptations proceed in the absence of TFE3, these data suggest a more direct role of TFE3 in the regulation of mitochondria in response to chronic contractile activity.Support or Funding InformationANO is funded by an Ontario Graduate Scholarship (OGS). JMM is funded by Natural Science and Engineering Research (NSERC) scholarship. DAH is the holder of a Canada Research Chair in Cell Physiology with funding from NSERC and CIHR.This abstract is from the Experimental Biology 2019 Meeting. There is no full text article associated with this abstract published in The FASEB Journal.