Epithelial organoids for urethral tissue engineering purposes

De Graaf P1, Griffioen A1, van Huffelen T1, Slaats G2, de Kort L1

Research Type

Pure and Applied Science / Translational

Abstract Category

Urethra Male / Female

Abstract 257
Urethra, Urinary Tract Infections and Benign Prostate Hyperplasia: The Diversity of Urology
Scientific Podium Short Oral Session 25
Friday 25th October 2024
14:00 - 14:07
Hall N105
Stem Cells / Tissue Engineering Cell Culture Basic Science Grafts: Biological Male
1. UMC Utrecht, department of Urology, 2. UMC Utrecht, department of Nephrology
Presenter
Links

Abstract

Hypothesis / aims of study
Shortage of tissue in reconstructive surgery to treat hypospadias and urethral stricture disease leads towards regenerative medicine, more specific tissue engineering. To generate tissue for urethral reconstruction, all components of the male urethra need to be recreated in vitro. Here we focus on the epithelial component. The objective of this study is to use organoid technology to recapitulate all the aspects of the structure and function of the urethral epithelium. The advantage of organoids is that cells grow in a tissue context and that the adult stem cell population can self-renew and differentiate. Organoids can potentially grow indefinitely, whereas cells on plastic stop after a few divisions. These aspects make organoids an ideal in vitro model to compare the use of bladder or urethral cells as epithelial source for future tissue engineering. Our ultimate goal is to create patient derived organoids as an epithelial source for autologous urethral grafts.
Study design, materials and methods
Tissue was obtained from piglets after anatomy class in veterinary school or from a surplus male rabbit previously used for operation training purposes (waste material). Epithelium from the penile urethra and the bladder from fresh corpses was isolated and transported to the tissue culture facility at our institute. Previously established procedures for culturing bladder organoids [1] were adapted to isolate primary cells to form organoids. For analysis and comparison, tissues, isolated primary epithelial cells, and organoids were stained for epithelial markers, including cytokeratins (CKs), cytoskeletal markers and tight junction proteins.
Results
Porcine bladder epithelium and urethral epithelial organoids could be established from dividing cells in the tissue and maintained for several months. Rabbit urethral cells (a mixed culture of fibroblasts and epithelial cells) could form epithelial organoids after few passages. Organoids could be stored in liquid nitrogen and thawed again. Morphologically, no clear difference between species, nor between bladder and urethral epithelial organoids were observed y. However, a different CK expression pattern was found. Epithelium in bladder organoids did not differentiate into transitional epithelium as seen in normal urothelium. Urethral organoids showed single layer epithelium with a lumen, like in the native urethra. Both rabbit and porcine urethral organoids showed mostly round morphology, but some organoids had a less round phenotype, with extrusions or elongation.
Interpretation of results
The differences in CK expression confirm that urethral epithelium has a different origin than urothelium, as is published before [2]. Furthermore, the variety in morphology (round, elongated, with or without lumen) indicates that the adult stem cells in the epithelium are not unipotent, but can form several specialized epithelial cells. We were also able to established a procedure to enrich epithelial cells in a culture that was mixed with fibroblasts.
Future experiments will include human samples. As urethral biopsy will induce stricture formation, we will aim to explore noninvasive ways to acquire bladder and urethral cells via, for example, urine isolation. Alternatively, induced differentiation towards urethral epithelium from progenitor, multipotent cells like adipose derived stromal cells or urine derived stem cells can be used.
Concluding message
To our knowledge, we are the first to establish urethral organoids from penile urethra in different species. Urethral organoids will created a suitable source for the epithelial component towards tissue engineering for urethral reconstruction.
Figure 1 wide field images of bladder (top) and penile urethra (bottom) organoids after 6 weeks in culture, scale bar is 400 um
Figure 2 Immuno fluorescence pictures of bladder (top) and penile urethra (bottom) organoids, antibodies as indicated, scale bare is 50 um
References
  1. E. Kim, S. Choi, B. Kang, J. Kong, Y. Kim, W.H. Yoon, H.R. Lee, S. Kim, H.M. Kim, H. Lee, C. Yang, Y.J. Lee, M. Kang, T.Y. Roh, S. Jung, S. Kim, J.H. Ku, K. Shin, Creation of bladder assembloids mimicking tissue regeneration and cancer, Nature 588(7839) (2020) 664-669.
  2. P. de Graaf, E.M. van der Linde, P. Rosier, A. Izeta, K.D. Sievert, J. Bosch, L.M.O. de Kort, Systematic Review to Compare Urothelium Differentiation with Urethral Epithelium Differentiation in Fetal Development, as a Basis for Tissue Engineering of the Male Urethra, Tissue engineering. Part B, Reviews 23(3) (2017) 257-267.
Disclosures
Funding Funding by the institute Clinical Trial No Subjects None
Citation

Continence 12S (2024) 101599
DOI: 10.1016/j.cont.2024.101599

12/12/2024 20:46:30