Targeting the long non-coding RNA MIAT for the treatment of fibroids in an animal model

Chuang, Tsai-Der; Ton, Nhu; Manrique, Nathaly; Rysling, Shawn; Khorram, Omid

doi:10.1042/cs20240190

Clinical Science

2024

DOI: 10.1042/cs20240190

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Targeting the long non-coding RNA MIAT for the treatment of fibroids in an animal model

Tsai-Der Chuang,

Nhu Ton,

Nathaly Manrique

et al.

Abstract: Our previous studies indicated that there is overexpression of MIAT in fibroids and MIAT is a sponge for the miR-29 family in these tumors. The objective of this study was to determine if the knockdown of MIAT in fibroid xenografts will increase miR-29 levels and reduce the expression of genes targeted by this miRNA such as collagen and cell cycle regulatory proteins in a mouse model for fibroids. Ovariectomized CB-17 SCID/Beige mice bearing estrogen/progesterone pellets were implanted subcutaneously in the fl… Show more

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Cited by 3 publications

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The in vivo effects of knockdown of long non‐coding RNA XIST on fibroid growth and gene expression

Chuang,

Ton,

Rysling

et al. 2024

The FASEB Journal

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The role of long non‐coding RNAs in fibroid pathogenesis remains largely unexplored. In a previous study, we found elevated XIST (X‐inactive specific transcript) levels in fibroids, which sponged miR‐29c and miR‐200c, leading to the overexpression of their target genes. This study aimed to assess the therapeutic potential of XIST downregulation in fibroid treatment. Ovariectomized SCID (severe combined immunodeficiency) mice were implanted with fibroid tumors transduced with XIST siRNA or a control via lentivirus. After 1 month, animals were sacrificed and the xenografts were removed for further analysis. XIST knockdown reduced tumor weight by 15% and increased miR‐29c and miR‐200c expression by 3.9‐fold and 2.2‐fold, respectively. The mRNA expression of miR‐29c targets (COL3A1, TGF‐β3, CDK2, SPARC) and miR‐200c targets (CDK2, FN1, TDO2), as well as PRL, E2F1, and EZH2, was significantly decreased. Protein abundance of collagen, COL3A1, FN1, CDK2, SPARC, and EZH2 was also reduced. IHC analysis of xenograft sections using the markers of Ki67 for cell proliferation and cleaved caspase 3 for apoptosis showed decreased cell proliferation and no changes in apoptosis in the XIST knockdown xenografts. This analysis also revealed decreased collagen and E2F1 staining nuclei in the XIST knockdown xenografts. These results indicate that downregulation of XIST in fibroids has beneficial therapeutic effects, by reducing tumor growth and the expression of genes involved in cell proliferation, inflammation, and extracellular matrix regulation.

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The in vivo effects of knockdown of long non‐coding RNA XIST on fibroid growth and gene expression

Chuang,

Ton,

Rysling

et al. 2024

The FASEB Journal

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In Vivo Effects of Bay 11-7082 on Fibroid Growth and Gene Expression: A Preclinical Study

Chuang,

Ton,

Rysling

et al. 2024

Cells

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Current medical therapies for fibroids have major limitations due to their hypoestrogenic side effects. Based on our previous work showing the activation of NF-kB in fibroids, we hypothesized that inhibiting NF-kB in vivo would result in the shrinkage of tumors and reduced inflammation. Fibroid xenografts were implanted in SCID mice and treated daily with Bay 11-7082 (Bay) or vehicle for two months. Bay treatment led to a 50% reduction in tumor weight. RNAseq revealed decreased expression of genes related to cell proliferation, inflammation, extracellular matrix (ECM) composition, and growth factor expression. Validation through qRT-PCR, Western blotting, ELISA, and immunohistochemistry (IHC) confirmed these findings. Bay treatment reduced mRNA expression of cell cycle regulators (CCND1, E2F1, and CKS2), inflammatory markers (SPARC, TDO2, MYD88, TLR3, TLR6, IL6, TNFα, TNFRSF11A, and IL1β), ECM remodelers (COL3A1, FN1, LOX, and TGFβ3), growth factors (PRL, PDGFA, and VEGFC), progesterone receptor, and miR-29c and miR-200c. Collagen levels were reduced in Bay-treated xenografts. Western blotting and IHC showed decreased protein abundance in certain ECM components and inflammatory markers, but not cleaved caspase three. Ki67, CCND1, and E2F1 expression decreased with Bay treatment. This preclinical study suggests NF-kB inhibition as an effective fibroid treatment, suppressing genes involved in proliferation, inflammation, and ECM remodeling.

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The Functional Role of the Long Non-Coding RNA LINCMD1 in Leiomyoma Pathogenesis

Chuang,

Ton,

Rysling

et al. 2024

IJMS

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Existing evidence indicates that LINCMD1 regulates muscle differentiation-related gene expression in skeletal muscle by acting as a miRNA sponge, though its role in leiomyoma development is still unknown. This study investigated LINCMD1′s involvement in leiomyoma by analyzing paired myometrium and leiomyoma tissue samples (n = 34) from patients who had not received hormonal treatments for at least three months prior to surgery. Myometrium smooth muscle cells (MSMCs) were isolated, and gene expression of LINCMD1 and miR-135b was assessed via qRT-PCR, while luciferase assays determined the interaction between LINCMD1 and miR-135b. To examine the effects of LINCMD1 knockdown, siRNA transfection was applied to a 3D MSMC spheroid culture, followed by qRT-PCR and Western blot analyses of miR-135b, APC, β-Catenin and COL1A1 expression. The results showed that leiomyoma tissues had significantly reduced LINCMD1 mRNA levels, regardless of patient race or MED12 mutation status, while miR-135b levels were elevated compared to matched myometrium samples. Luciferase assays confirmed LINCMD1′s role as a sponge for miR-135b. LINCMD1 knockdown in MSMC spheroids increased miR-135b levels, reduced APC expression, and led to β-Catenin accumulation and higher COL1A1 expression. These findings highlight LINCMD1 as a potential therapeutic target to modulate aberrant Wnt/β-Catenin signaling in leiomyoma.

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Targeting the long non-coding RNA MIAT for the treatment of fibroids in an animal model

Cited by 3 publications

References 45 publications

The in vivo effects of knockdown of long non‐coding RNA XIST on fibroid growth and gene expression

The in vivo effects of knockdown of long non‐coding RNA XIST on fibroid growth and gene expression

In Vivo Effects of Bay 11-7082 on Fibroid Growth and Gene Expression: A Preclinical Study

The Functional Role of the Long Non-Coding RNA LINCMD1 in Leiomyoma Pathogenesis

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