Abstract
Abstract Mortalin, encoded by the HSPA9 gene, is a highly conserved heat-shock chaperone belonging to the HSP70 family. It is predominantly presented in the mitochondria, and is critical in regulating a variety of cell physiological functions such as response to cell stress, control of cell proliferation, and inhibition/prevention of apoptosis. Myelodysplastic syndromes (MDS) are a group of hematopoietic stem cell malignancies characterized by ineffective hematopoiesis, increased apoptosis of bone marrow cells, and anemia. Up to 25% of MDS patients harbor an interstitial deletion on the long arm of chromosome 5, also known as del(5q), creating haploinsufficiency for multiple genes including HSPA9. Our prior study showed that knockdown of HSPA9 induces TP53-dependent apoptosis in human CD34+ hematopoietic progenitor cells, consistent with cytopenia observed in MDS patients. Since anemia is another featured symptom of MDS, we hypothesize that HSPA9 plays a role in regulating erythroid maturation. To test our hypothesis, we inhibited the expression of HSPA9 using various methods and measured the erythroid maturation in human CD34+ cells. We used siRNA targeting HSPA9 and found that HSPA9 siRNA significantly inhibited the cell growth, increased cell apoptosis, inhibited erythroid maturation (using CD71 as a surrogate marker), and increased p53 expression (p<0.01) compared to control siRNA in human CD34+ cells. Pharmacologic inhibition of HSPA9 by the chemical MKT-077, an inhibitor of HSP70 protein family members including mortalin, also increased p53 expression and inhibited erythroid maturation in human CD34+ cells. In addition, knockdown of HSPA9 by shRNA showed significant inhibition of erythroid maturation in human CD34+ cells compared to control shRNA. In order to test whether the regulation of erythroid maturation by HSPA9 is TP53-dependent or not, we constructed shRNAs targeting TP53 genes and simultaneously transduced lentivirus containing shRNAs targeting HSPA9 and TP53 respectively in human CD34+ cells using double antibiotics selection (puromycin for shRNA targeting HSPA9 and hygromycin for shRNA targeting TP53). We found that TP53 knockdown partially rescued the erythroid maturation defect caused by HSPA9 inhibition, suggesting that erythroid maturation inhibition by HSPA9 knockdown is partly mediated through a TP53 mechanism. Collectively, our results suggest that the increased apoptosis and reduced erythroid maturation observed in del(5a)-associated MDS is TP53-dependent. HSPA9/mortalin may be a potential target to treat anemia in del(5q) MDS patients, although simultaneous loss of multiple genes on del(5q) likely contributes to the complex phenotypes observed in MDS. Thus, our study not only uncovers some underlying mechanisms of del(5q) MDS, but also provides potential therapeutic indications through gene targeting in clinical MDS treatment. Citation Format: Tuoen Liu, Christopher Butler, Morgan Dunmire, Gabor Szalai, Anissa Johnson, Jaebok Choi, Matthew Walter. HSPA9/mortalin regulates erythroid maturation through a TP53-dependent mechanism in human CD34+ hematopoietic progenitor cells [abstract]. In: Proceedings of the American Association for Cancer Research Annual Meeting 2024; Part 1 (Regular Abstracts); 2024 Apr 5-10; San Diego, CA. Philadelphia (PA): AACR; Cancer Res 2024;84(6_Suppl):Abstract nr 248.
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