CnT-17 Airway Epithelial Proliferation Medium

CnT-17

Basal medium + supplement pack

500 mL

CHF 369.00

Description

CnT-17 is a fully defined, low-calcium medium designed for the isolation and expansion of large airway epithelial cells from mouse and human tissues. It is the original formulation from which CnT-PR-A was developed and remains a reliable choice for foundational airway epithelial cell culture.
The medium is provided as a liquid culture kit, including both basal medium and supplements. For maximum isolation efficiency, it is recommended to use IsoBoost (#CnT-ISO-50), which has been shown to double cell yield during the first week of culture.

Category Media

Highlights

Isolation and expansion of airway epithelial cells

Medium for efficient isolation and expansion of large airway epithelial cells

Chemically defined

Chemically defined medium formulation

Feeder free, no coating required

Stable, feeder-free culture without plate coatings, minimizing batch-to-batch variability and preparation steps

CnT-17

CnT-PR-A

Tissue type

Lung, Airway

Airway, Lung

Cell type

Epithelial Cells

Species

Human, may also work for other species

Workflow Steps

Isolation, Proliferation

Serum Level

Serum-free

BPE Level

BPE-free

ACF Status

Contains animal components

Free of animal and human components

Chemically defined

Yes

Clinically upgradable

–

Volume

500 mL

Component(s)

–

Quality Level

Research Grade

Scientific Literature

H Yuguri et al.

(2017)

— Oncogene

Targeting prohibitins with chemical ligands inhibits KRAS-mediated lung tumours

CnT-17

Read publication >

Yu-Zhi Lu et al.

(2020)

— Exp Cell Res

Bleomycin induced apical-basal polarity loss in alveolar epithelial cell contributes to experimental pulmonary fibrosis

CnT-17

Read publication >

Shuai-Jun Chen et al.

(2024)

— Cell Commun Signaling

DEC1 is involved in circadian rhythm disruption-exacerbated pulmonary fibrosis

CnT-17

Read publication >

Laure M.G. Petit et al.

(2024)

— Heliyon

Glypican-3 is a key tuner of the Hedgehog pathway in COPD

CnT-17

Read publication >

Adrien Maupas et al.

(2025)

— PLoS One

Roscovitine enhances the bactericidal activity of the airway surface liquid of the cystic fibrosis bronchial epithelium but does not protect against Pseudomonas aeruginosa infection

CnT-17

Read publication >

Damien Adam et al.

(2018)

— J Cystic Fibrosis

CFTR rescue with VX-809 and VX-770 favors the repair of primary airway epithelial cell cultures from patients with class II mutations in the presence of Pseudomonas aeruginosa exoproducts

CnT-17

Read publication >

Ruth A. Elderfield et al.

(2015)

— J General Virology

Ferret airway epithelial cell cultures support efficient replication of influenza B virus but not mumps virus

CnT-17

Read publication >

Fabiana C. P. Valera et al.

(2018)

— J Allergy Clin Immunol

Staphylococcus aureus impairs sinonasal epithelial repair: Effects in patients with chronic rhinosinusitis with nasal polyps and control subjects

CnT-17

Read publication >

Downloads

CnT-17 Airway Epithelial Proliferation Medium Datasheet

Download

CnT-17 Airway Epithelial Proliferation Medium SDS

Download

General thawing, passaging, and freezing protocol

Download

Related Products

CnT-17 has been developed for proliferation of airway epithelial cells. For 2D or 3D differentiation of these cells, it is recommended to switch to CnT-PR-AD.

CnT-PR-A

Efficient isolation and expansion of large airway epithelial cells.

CnT-PR-AD

Differentiation of large airway epithelial cells in 2D and 3D culture.

CnT-ISO-50

A chemically defined supplement added to the culture medium after isolation, that significantly improves viability and attachment of primary epithelial cells.

CnT-CRYO-50

A cryopreservation medium containing all the necessary components to protect cells during freezing and thawing.

CnT-17 Airway Epithelial Proliferation Medium

Description

Highlights

Isolation and expansion of airway epithelial cells

Chemically defined

Feeder free, no coating required

CnT-17

CnT-PR-A

Scientific Literature

H Yuguri et al.

(2017)

— Oncogene

Targeting prohibitins with chemical ligands inhibits KRAS-mediated lung tumours

Yu-Zhi Lu et al.

(2020)

— Exp Cell Res

Bleomycin induced apical-basal polarity loss in alveolar epithelial cell contributes to experimental pulmonary fibrosis

Shuai-Jun Chen et al.

(2024)

— Cell Commun Signaling

DEC1 is involved in circadian rhythm disruption-exacerbated pulmonary fibrosis

Laure M.G. Petit et al.

(2024)

— Heliyon

Glypican-3 is a key tuner of the Hedgehog pathway in COPD

Adrien Maupas et al.

(2025)

— PLoS One

Roscovitine enhances the bactericidal activity of the airway surface liquid of the cystic fibrosis bronchial epithelium but does not protect against Pseudomonas aeruginosa infection

Damien Adam et al.

(2018)

— J Cystic Fibrosis

CFTR rescue with VX-809 and VX-770 favors the repair of primary airway epithelial cell cultures from patients with class II mutations in the presence of Pseudomonas aeruginosa exoproducts

Ruth A. Elderfield et al.

(2015)

— J General Virology

Ferret airway epithelial cell cultures support efficient replication of influenza B virus but not mumps virus

Fabiana C. P. Valera et al.

(2018)

— J Allergy Clin Immunol

Staphylococcus aureus impairs sinonasal epithelial repair: Effects in patients with chronic rhinosinusitis with nasal polyps and control subjects

Downloads

CnT-17 Airway Epithelial Proliferation Medium Datasheet

Download

CnT-17 Airway Epithelial Proliferation Medium SDS

Download

General thawing, passaging, and freezing protocol

Download

Related Products

CnT-PR-A

CnT-PR-AD

CnT-ISO-50

CnT-CRYO-50

CnT-Accutase-100

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