Introduction

ANKHD1 is a multiple ankyrin repeats containing protein, highly expressed in cancers, such as acute leukemia. Earlier studies showed that ANKHD1 is highly expressed and plays important role in proliferation and cell cycle progression of multiple myeloma (MM) cells. It was also observed that ANKHD1 downregulation modulates cell cycle gene expression and upregulates p21 irresepective of TP53 mutational status of MM cell lines.

Objective

The present study aimed to study the effect ofANKHD1 silencing on MM growth both in vitro (clonogenicity, migration) and in vivo (xenograft tumor mice model). The purpose was to investigate the feasibility of ANKHD1 gene therapy for MM.

Methods

In the present study, ANKHD1 expression was silenced using short hairpin RNA (shRNA)-lentiviral delivery vector in MM cell lines (U266 and MM1S). For control MM cells were tranduced by lentiviral shRNA against LacZ. Downregulation of ANKHD1 expression was confirmed by qPCR and Western blot. Colony formation capacity and migration of control and ANKHD1 silenced MM cells was determined by methylcellulose and transwell migration assays, respectively. For in vivo MM growth, NOD-SCID mice were divided in two groups injected with control and ANKHD1 silenced cells, separately. Mice were observed daily for tumor growth. Once the tumor size reached 1 mm3, mice in both groups were sacrificed and tumor was excised to measure tumor volume and weight.

Results

Corroborating the results obtained in our earlier studies, in the present study also inhibition of ANKHD1 expression suppressed growth of MM cells in vitro. MM cell lines tranduced with ANKHD1 shRNA showed significantly low number of colonies ten days after plating in methylcellulose medium as compared to control (p<0.05). Similarly, in transwell migration assay, cell lines transduced with ANKHD1 showed significantly less migration as in response to 10% FBS at lower chamber as compared to control group (p<0.05) in both the cell lines analyzed. Further in xenograft MM mice model, the growth of tumor was visibly suppressed in mice injected with ANKHD1 silenced cells compared to control group. There was significant difference in tumor size (volume) between these 2 groups (P< 0.006). The tumor weight of the inhibition group was 0.71 ±0.2 g, significantly lighter than those of the control group (1.211 ± 0.5 g, P =0.02)

Conclusion

Our data indicates ANKHD1 downregulation significantly inhibits colony-forming ability and migration of both glucocorticoid resistant (U266) and sensitive (MM1S) MM cells. Further, gene silencing of ANKHD1 also resulted in reduced in vivo tumor growth in NOD/SCID mice. Collectively, the result obtained indicates that ANKHD1 may be a target for gene therapy in MM.

Disclosures:

No relevant conflicts of interest to declare.

Author notes

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Asterisk with author names denotes non-ASH members.

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