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Endothelial cells play a central role in maintaining vascular homeostasis, regulating permeability, and mediating inflammatory responses. Among the various endothelial cell models available, Cynomolgus Monkey HUVEC cells stand out as a valuable system for researchers seeking a closer approximation to human endothelial function.

 

Derived from the umbilical vein of Macaca fascicularis (cynomolgus monkey), these cells exhibit morphological and physiological characteristics highly comparable to those of human umbilical vein endothelial cells (HUVECs). Their genetic and metabolic similarities to humans make them an ideal tool for studying vascular biology, drug delivery, and inflammation under conditions that more accurately mimic human physiology.

 

High-Quality Source and Reliable Performance

Cynomolgus Monkey HUVEC cells are typically isolated from healthy umbilical vein tissue and cryopreserved for long-term stability. Each batch undergoes rigorous testing to ensure high purity—often above 85%—and to confirm that the cells are free from bacteria, fungi, yeast, and mycoplasma contamination. Their endothelial identity can be verified by immunofluorescence staining for key markers such as CD31, VE-cadherin, and von Willebrand factor.

 

Versatile Applications in Biomedical Research

Because of their strong physiological relevance, these cells have become essential tools in several research domains, including:

Angiogenesis and vascular remodeling studies

Drug permeability and cytotoxicity assays

Inflammatory signaling and leukocyte adhesion experiments

Gene therapy and vector transduction evaluation

In vitro modeling of cardiovascular and metabolic disorders

 

Researchers often use these cells in transcriptome analysis (PCR), Western blotting, immunoprecipitation, and cell–cell interaction assays, allowing comprehensive insights into endothelial behavior under experimental conditions.

Explore experimental applications here

 

Storage and Handling Recommendations

Cynomolgus Monkey HUVEC cells are shipped frozen on dry ice and should be transferred directly to liquid nitrogen (–180 °C) upon arrival. Maintaining proper cryogenic storage ensures cell viability and consistent performance across experiments.

 

A Translational Model for Vascular Research

With their close genetic alignment to humans and robust endothelial characteristics, Cynomolgus Monkey HUVEC cells provide a crucial bridge between rodent systems and human clinical research. They offer scientists a dependable, physiologically relevant platform for advancing vascular biology, safety pharmacology, and therapeutic discovery.