Litcius/Paper detail

A construct of adipose-derived mesenchymal stem cells—laden collagen scaffold for fertility restoration by inhibiting fibrosis in a rat model of endometrial injury

Yangyang Dai, Liaobing Xin, Sentao Hu, Shiqian Xu, Dong Huang, Xiaoying Jin, Jianmin Chen, Rachel Chan, Ernest Hung Yu Ng, William S.B. Yeung, Lie Ma, Songying Zhang

2023Regenerative Biomaterials33 citationsDOIOpen Access PDF

Abstract

Abstract Severe endometrium damage causes pathological conditions such as thin endometrium and intrauterine adhesion, resulting in uterine factor infertility. Mesenchymal stem cell (MSC) therapy is a promising strategy in endometrial repair; yet, exogenous MSCs still raise concerns for safety and ethical issues. Human adipose-derived mesenchymal stem cells (ADMSCs) residing in adipose tissue have high translational potentials due to their autologous origin. To harness the high translation potentials of ADMSC in clinical endometrium regeneration, here we constructed an ADMSCs composited porous scaffold (CS/ADMSC) and evaluated its effectiveness on endometrial regeneration in a rat endometrium-injury model. We found that CS/ADMSC intrauterine implantation (i) promoted endometrial thickness and gland number, (ii) enhanced tissue angiogenesis, (iii) reduced fibrosis and (iv) restored fertility. We ascertained the pro-proliferation, pro-angiogenesis, immunomodulating and anti-fibrotic effects of CS/ADMSC in vitro and revealed that the CS/ADMSC influenced extracellular matrix composition and organization by a transcriptomic analysis. Our results demonstrated the effectiveness of CS/ADMSC for endometrial regeneration and provided solid proof for our future clinical study.

Topics & Concepts

Mesenchymal stem cellEndometriumRegeneration (biology)Adipose tissueFibrosisAngiogenesisInfertilityScaffoldStem cellExtracellular matrixEndometriosisMedicineAndrologyCancer researchBiologyInternal medicineCell biologyPathologyBiomedical engineeringPregnancyGeneticsBone fractures and treatmentsReconstructive Surgery and Microvascular TechniquesMesenchymal stem cell research