CnT-Canine Epidermal Keratinocyte Progenitors, Long-Term

CPEK

Frozen

Vial containing 0.5 million viable cells

CHF 1,296.00

Description

CPEK cells are long‑term canine epidermal keratinocytes that provide the convenience of extended in vitro growth without senescence. These cells are isolated from normal canine epidermal tissue and are not actively transformed. They are supplied cryopreserved at approximately passages 30 to 40 and have been widely characterized. CELLnTEC guarantees at least six months of growth following delivery.
As with all long‑term cell cultures, it is recommended to expand the cells upon initial receipt and then freeze down multiple stock vials for future use. Experimental work should be carried out within approximately 15 to 20 passages after thawing each stock vial. Once this passage range has been completed, the culture should be discarded and a new culture initiated from a fresh vial to ensure consistency and performance.

Category Cells

Highlights

1

Long-term culture

Canine keratinocyte line for long-term culture

2

Specific donor

Spontaneously transformed cells isolated from normal beagle dog skin

3

Ease of use

Isolated and expanded in CELLnTEC media

4

Performance tested

Cell-culture tested

CPEK

Tissue type

Skin

Cell type

Epithelial Cells, Keratinocytes

Species

Dog

Workflow Steps

Differentiation, 3D models, Co-Culture, Homeostasis, Cryopreservation, Proliferation

Serum Level

–

BPE Level

–

ACF Status

–

Chemically defined

–

Clinically upgradable

–

Volume

1 mL

Component(s)

–

Quality Level

Research Grade

Scientific Literature

Manon Barthe et al.

(2023)

— Int J Mol Sci

Topical Probiotic Formulation Promotes Rapid Healing in Dog Keratinocyte Cells: A Promising Approach for Wound Management

Read publication >

Jae-Eun Hyun et al.

(2024)

— Vet Sci

Antimicrobial Peptide Reduces Cytotoxicity and Inflammation in Canine Epidermal Keratinocyte Progenitor Cells Induced by Pseudomonas aeruginosa Infection

Read publication >

Akira Matsuda et al.

(2025)

— J Vet Med Sci

Daily topical application of chlorhexidine gluconate to the skin in dogs and its impact on skin barriers and cytotoxicity

Read publication >

Morgan Detering et al.

(2025)

— BMC Complementary Med Therapies

In vitro characterization of potential botanicals to reduce infection and improve the rate of wound healing in humans and canines

Read publication >

Esther Hindriks et al.

(2025)

— Vet Immunol Immunopathology

Cancer-testis antigen expression in canine melanoma and healthy tissues

Read publication >

Enrico Gugliandolo et al.

(2020)

— Vet Med Sci

Canine atopic dermatitis: Role of luteolin as new natural treatment

Read publication >

Hyerin Suh et al.

(2022)

— Vet Sci

Canine Stem Cell Conditioned Media Accelerates Epithelial Migration in the Canine Tympanic Membrane

Read publication >

Laura Messina et al.

(2022)

— Animals

Snail Mucus Filtrate Reduces Inflammation in Canine Progenitor Epidermal Keratinocytes (CPEK)

Read publication >

Downloads

CnT-Canine Epidermal Keratinocyte Progenitors, Long-Term Datasheet

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CnT-Canine Epidermal Keratinocyte Progenitors, Long-Term SDS

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General thawing, passaging, and freezing protocol

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Related Products

To ensure optimal results, use recommended culture medium CnT-09.

CnT-09

a 10% serum culture medium designed for efficient isolation and extended in vitro culture of canine keratinocytes.

MPEK-BL6

CELLnTEC’s long-term mouse keratinocytes are spontaneously transformed cells that provide the convenience of long-term cell growth without senescence.

HPEKp

Normal human epidermal keratinocyte progenitor cells, isolated from juvenile donor material, cryo preserved at early passage.

CnT-Accutase-100

Our recommended enzyme for cell detachment and passaging due to its gentle action, and the fact that no separate reagent is required to stop the reaction (simply dilute, then centrifuge).

CnT-CRYO-50

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

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