Elevation of master autophagy regulator Tfeb in osteoblast lineage cells increases bone mass and strength
Alicen James, James A. Hendrixson, Ilham Kadhim, Adriana Marques-Carvalho, Jacob Laster, Julie Crawford, Jeff Thostenson, Visanu Wanchai, Amy Y. Sato, Intawat Nookaew, Jinhu Xiong, Maria Almeida, Melda Onal
Alicen James, James A. Hendrixson, Ilham Kadhim, Adriana Marques-Carvalho, Jacob Laster, Julie Crawford, Jeff Thostenson, Visanu Wanchai, Amy Y. Sato, Intawat Nookaew, Jinhu Xiong, Maria Almeida, Melda Onal
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Research Article Bone biology Cell biology

Elevation of master autophagy regulator Tfeb in osteoblast lineage cells increases bone mass and strength

Abstract

Autophagy is a recycling pathway in which damaged proteins, protein aggregates, and organelles are delivered to lysosomes for degradation. Autophagy insufficiency is thought to contribute to osteoporosis. Accordingly, autophagy elimination from the osteoblast lineage reduces bone formation and bone mass. However, whether increasing autophagy would benefit bone health is unknown. Here, we increased expression of endogenous transcription factor EB gene (Tfeb) in osteoblast lineage cells in vivo via CRISPR activation (TfebCRa mice). Elevated Tfeb stimulated autophagy and lysosomal biogenesis in osteoblasts. TfebCRa mice displayed a robust increase in femoral and vertebral cortical thickness at 4.5 months of age. Increases in cortical thickness were due to increased periosteal bone formation. Tfeb elevation also increased femoral trabecular bone volume. These changes increased bone strength of TfebCRa mice. Female TfebCRa mice displayed a progressive increase in bone mass and at 12 months of age had high cortical thickness and trabecular bone volume. Increased vertebral trabecular bone volume was due to elevated bone formation. Osteoblastic cultures showed that Tfeb elevation increased proliferation and mineral deposition. Overall, these results demonstrate TFEB-driven stimulation of autophagy in osteoblast lineage cells is associated with increased bone formation and strength and may represent an effective approach to combat osteoporosis.

Authors

Alicen James, James A. Hendrixson, Ilham Kadhim, Adriana Marques-Carvalho, Jacob Laster, Julie Crawford, Jeff Thostenson, Visanu Wanchai, Amy Y. Sato, Intawat Nookaew, Jinhu Xiong, Maria Almeida, Melda Onal

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Figure 7

Tfeb elevation promotes production and function of osteoblasts.

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Tfeb elevation promotes production and function of osteoblasts. Periost...
Periosteal mesenchymal cells isolated from femurs of 4-month-old female TfebCRa mice and Cre littermate controls (Osx1-Cre CRa and Osx1-Cre sgRNATfeb) were subjected to scRNA-Seq using the 10X Genomics Chromium platform. n = 2 mice per group. (A) UMAP visualization of cell clusters obtained from the periosteum. (B) Dot plot of the representative marker genes for each cluster. The dot size indicates the percentage of cells expressing each gene, and the color gradient indicates expression level. (C) Volcano plots of genes significantly up- or downregulated in each cluster. (D) Biological processes significantly upregulated (green) or downregulated (red) in response to Tfeb stimulation as determined by GO analysis (p_adjusted < 0.05). Larger circle sizes and darker colors indicate higher significance. (E) Violin plots with box and whiskers representing the expression of select genes in Osteo-X cells. Wider parts of the violin indicate more data points. Inner box plots indicate the median (the line), quartiles (the boxes), and range of the data (whiskers). (F) SCENIC analysis of transcription factor activity in Osteo-X cells. UMAP, uniform manifold approximation and projection; BMP, bone morphogenetic protein; Lox, lysyl oxidase; Alpl, alkaline phosphatase; Ibsp, bone sialoprotein.