Culturing and Differentiation of Patient-derived Ectocervical Epithelial Stem Cells using Air-Liquid Interphase and Matrigel Scaffold.

TY - CHAP

T1 - Culturing and Differentiation of Patient-derived Ectocervical Epithelial Stem Cells using Air-Liquid Interphase and Matrigel Scaffold.

AU - Kumar Gurumurthy, Rajendra

AU - Kumar, Naveen

AU - Chumduri, Cindrilla

PY - 2024

Y1 - 2024

N2 - The ectocervix acts as a multilayered defense barrier, protecting the female reproductive system from external pathogens and supporting fertility and pregnancy. To understand the complex cellular and molecular mechanisms of cervical biology and disease, reliable in vitro models are vital. We present an efficient method to isolate and cultivate epithelial stem cells from ectocervical tissue biopsies. This method combines enzymatic digestion, mechanical dissociation, and selective culturing to obtain pure ectocervical epithelial cells for further investigation. The protocol accommodates both 2D stem cell monolayer and advanced 3D culture systems, such as air-liquid interface and Matrigel scaffolds, using a defined media cocktail, making it highly versatile. The primary ectocervical epithelial cells retain their native characteristics, enabling the exploration of ectocervical epithelial tissue behavior and pathology. This chapter provides step-by-step guidelines for setting up 2D and 3D cultures, facilitating adoption across different laboratories, and advancing cervical biology and disease research.

AB - The ectocervix acts as a multilayered defense barrier, protecting the female reproductive system from external pathogens and supporting fertility and pregnancy. To understand the complex cellular and molecular mechanisms of cervical biology and disease, reliable in vitro models are vital. We present an efficient method to isolate and cultivate epithelial stem cells from ectocervical tissue biopsies. This method combines enzymatic digestion, mechanical dissociation, and selective culturing to obtain pure ectocervical epithelial cells for further investigation. The protocol accommodates both 2D stem cell monolayer and advanced 3D culture systems, such as air-liquid interface and Matrigel scaffolds, using a defined media cocktail, making it highly versatile. The primary ectocervical epithelial cells retain their native characteristics, enabling the exploration of ectocervical epithelial tissue behavior and pathology. This chapter provides step-by-step guidelines for setting up 2D and 3D cultures, facilitating adoption across different laboratories, and advancing cervical biology and disease research.

KW - 2D culture

KW - 3D culture

KW - Air-liquid interface (ALI)

KW - Cell isolation

KW - Cervical tissue biopsies

KW - Ectocervix

KW - Epithelial cells

KW - Organoids

KW - Primary cell culture

UR - https://www.scopus.com/pages/publications/85180639904

U2 - 10.1007/978-1-0716-3609-1_11

DO - 10.1007/978-1-0716-3609-1_11

M3 - Book chapter

C2 - 38133779

SN - 978-1-07-163608-4

VL - 2

T3 - Methods in Molecular Biology

SP - 109

EP - 121

BT - Epithelial Cell Culture

A2 - Baratta, Mario

PB - Humana Press

CY - New York

ER -