Characterization of neuropathic bladder smooth muscle cells in culture

Hsueh Kung Lin, Rick Cowan, Pete Moore, Yuanyuan Zhang, Qing Yang, John A. Peterson, James J. Tomasek, Bradley P. Kropp, Earl Y. Cheng*

*Corresponding author for this work

Research output: Contribution to journalArticlepeer-review

99 Scopus citations

Abstract

Purpose: Clinically bladder cells used in tissue engineering techniques will come from neuropathic bladders and not normal bladders. We determined if neuropathic bladder smooth muscle (SM) cells (SMCs) retain functional differences when cultured in vitro. Materials and Methods: Primary cultures of SMCs were established from patients with a neuropathic bladder (5) and a normal bladder (5). Expression of α-SM actin and SM myosin heavy chain was determined using immunocytochemical staining and Western blot analysis. Baseline cell proliferation and the mitogenic response to angiotensin II was assessed by cell counting and cell viability assays. Cell contractility was determined for normal and neuropathic SMCs using an in vitro collagen lattice assay. Cell adherence was measured assessed using partial and complete trypsinization assays. Results: Normal and neuropathic SMCs showed similar morphology in culture, and similar patterns of α-SM actin and SM myosin expression. Following 10 days of plating under optimal growth conditions the number of neuropathic SMCs was 170% more than normal SMCs. In response to angiotensin II neuropathic SMCs reached 54% of maximal growth capacity as opposed to 30% for normal SMCs (p < 0.01). Neuropathic SMCs contracted significantly less in 10% serum and calcium ionophore (p < 0.05), as determined by in vitro contractility assays. Neuropathic SMCs had 19% and 30% less adherent cells than normal SMCs (p < 0.01) following isotonic solution washes and trypsinization, respectively. Conclusions: These results demonstrate that cultured neuropathic bladder SMCs possess and maintain different characteristics than normal SMCs in vitro. The potential clinical implications of using these cells in conjunction with tissue engineering techniques for the promotion of bladder regeneration requires further investigation.

Original languageEnglish (US)
Pages (from-to)1348-1352
Number of pages5
JournalJournal of Urology
Volume171
Issue number3
DOIs
StatePublished - Mar 2004

Funding

Supported by The Edwin Beer Program of The New York Academy of Medicine.

Keywords

  • Bladder
  • Bladder, neurogenic
  • Cell adhesion
  • Muscle contraction
  • Muscle, smooth

ASJC Scopus subject areas

  • Urology

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