As the smallest autonomous structural and functional unit of living organisms, the cell remains the cornerstone of life-science research and occupies a central position in the quest to unravel the mysteries of life:

 

1.In scientific research, dynamic processes such as cell proliferation and differentiation, signal transduction, and metabolic regulation serve as pivotal targets for elucidating physiological mechanisms and pathogenesis, establishing the cell as the core instrument for decoding the continuum of life.

 

2.In drug discovery, cellular models constitute the primary platform for high-throughput screening, toxicity assessment, and pharmacodynamic validation; cell-viability assays are integral from early compound triage through pre-clinical development. With the advent of genome-editing technologies (e.g., CRISPR) and the evolution of cell-based therapeutics, cells themselves have emerged as cutting-edge “drugs” for disease intervention.

 

3.In biomanufacturing, cells function as microscale bioreactors, enabling the efficient production of antibodies, proteins, peptides, and other reagents or biotherapeutics, thereby propelling both life-science research and industrial translation.

 

“How are my cultured cells responding to the applied stimulus?” is the first question investigators must address when cells are exposed to any agent or perturbation. This query can be answered by interrogating multiple biomarkers of cellular viability. The following review systematically introduces three major categories—comprising six distinct methodologies—for assessing cell viability, enabling researchers to select the most appropriate assay and rapidly achieve reliable quantification of cellular viability.

 

1、Gold-standard methodology: assessment of cellular viability via quantification of intracellular adenosine triphosphate (ATP).

 

Intracellular adenosine triphosphate (ATP) content serves as a direct readout of cellular energy metabolism. ATP-bioluminescence assays quantify cellular ATP levels to assess viability. The protocol is streamlined to a simple “add–incubate–read” workflow, offering exceptional sensitivity and a broad dynamic range, making it particularly well suited for high-throughput applications that demand maximal analytical sensitivity.

 

 

Catalog Number	Category	Salient features
#abs50065	2D Luminescent Cell Viability Assay Kit	Standard configuration
#abs50059	2D/3D/Organoid ATP Viability Assay Kit	Optimized for organoids
#abs50189	CTG-LTM 2D Luminescent Cell Viability Assay Kit 2.0	Increased stability

 

2、Compatible with CTG-L reagent; enables non-lytic fluorometric assessment of cell viability via live-cell protease activity.

 

cell-viability assays, the inclusion of an internal reference frequently necessitates multiplexed analysis—simultaneous application of orthogonal, non-interfering methodologies targeting distinct biochemical mechanisms on the same sample. This approach permits direct cross-validation and effectively eliminates data variability attributable to non-experimental factors.

 

The assay exploits a highly conserved intracellular protease whose activity is strictly confined to intact, viable cells. A cell-permeable fluorogenic substrate enters live cells and is specifically cleaved by this protease, generating a fluorescent signal that is directly proportional to the number of viable cells. Upon loss of membrane integrity, the protease is released into the extracellular medium, where its activity is instantaneously abolished owing to the altered physicochemical environment.

 

Employing a mechanistically distinct principle from the CTG-L luciferase reagent series, this assay detects subtle, early-stage cellular damage with superior sensitivity. Owing to excellent compatibility, the two reagents can be multiplexed without interference. The workflow is reduced to a simple “add-incubate-read” triad, rendering the method ideally suited for high-throughput applications.

 

Schematic illustration of the principle for assessing live-cell protease activity

 

Catalog Number	Category	Salient features
#abs50193	CTF-LTM 2D Fluorescent Cell Viability Assay Kit	Fluorometric, non-lytic assay; excitation 380 nm / emission 510 nm

 

3、Traditional gold-standard method: assessment of cell viability based on the reductive activity of mitochondrial dehydrogenases.

 

Cell-viability assays predicated on mitochondrial dehydrogenase activity exploit the pivotal role of these enzymes in cellular metabolism. Localized at the inner mitochondrial membrane, mitochondrial dehydrogenases catalyze the oxidative removal of hydrogen from substrates, transferring electrons to an exogenous chromogenic electron acceptor—e.g., the tetrazolium salt MTT—thereby enabling spectrophotometric quantification of metabolic competence.

 

In viable cells with intact mitochondrial function, dehydrogenase activity is robust, driving efficient reduction of the substrate and eliciting a pronounced colorimetric shift (e.g., MTT is reduced to purple formazan crystals). Conversely, loss or attenuation of cellular viability compromises mitochondrial integrity, leading to diminished dehydrogenase activity and a correspondingly weaker substrate reduction, reflected by a reduced color change.

 

Owing to the diversity of reducible substrates, these methods can be further subclassified as follows:

① MTT assay: Requires prior admixture of two components. Mitochondrial dehydrogenases reduce the reagent to water-insoluble, blue–purple formazan crystals. After medium removal and solubilization, absorbance is measured at 570 nm.

②MTS assay (an upgraded MTT analogue): Requires premixing of two components prior to use. Mitochondrial dehydrogenases reduce the reagent to a water-soluble formazan product, eliminating the need for medium exchange and simplifying the workflow; absorbance is read at 490 nm.

③CCK-8 assay (a second-generation MTT substitute): Supplied as a ready-to-use reagent that can be added directly to the cell culture without pre-formulation. It affords rapid readout and exhibits minimal cytotoxicity. The active substrate, WST-8, is reduced to an orange-yellow formazan dye by mitochondrial dehydrogenases in the presence of an electron-coupling mediator; no medium exchange is required, and absorbance is measured at 450 nm.

④Alamar Blue assay, whose active constituent is resazurin, employs a cell-permeant, non-toxic, weakly blue-fluorescent indicator that serves as an MTT alternative. In its oxidized state, resazurin appears purple-blue and is essentially non-fluorescent; upon reduction by metabolically active cells it is converted to resorufin, which is pink and strongly fluorescent. The resulting fluorescence intensity is directly proportional to the number of respiring cells. The colorimetric shift can be monitored with a standard spectrophotometer at 570 nm (reference 600 nm), while the fluorometric signal is measured using excitation 530–560 nm and emission 590 nm.

Schematic illustration of the principle underlying cell-viability assessment via mitochondrial dehydrogenase activity.

 

Catalog Number	Category	Salient features
#abs50010	MTT Cell Proliferation and Cytotoxicity Assay Kit	Requires pre-mixing and medium exchange
#abs50011	MTS Cell Proliferation Assay Kit	Requires pre-mixing; no medium exchange necessary
#abs50003	CCK-8 Kit	No pre-mixing or medium exchange required
#abs47047610	Alamar Blue Cell Proliferation and Cytotoxicity Detection Reagent	No pre-mixing or medium exchange required; compatible with both absorbance and fluorescence detection

 

The three categories outlined above represent the principal methodologies currently employed for assessing cell viability. Herein, we have also compiled the salient features of these methods to facilitate the selection process based on specific experimental requirements.

 

Methodology	Catalog Number	Category	Signal half-life	Throughput	Sensitivity	Detection time required
ATP-based assay	#abs50065	2D Luminescent Cell Viability Assay Kit	Bioluminescence > 0.5h	96/384	A cell density of 100 cells	10 min
	#abs50059	2D/3D/Organoid ATP Viability Assay Kit	Bioluminescence> 0.5h	96/384	A cell density of 100 cells	30 min
	#abs50189	CTG-LTM 2D Luminescent Cell Viability Assay Kit 2.0	Bioluminescence＞2h (2-4h)	96/384	A cell density of 50 cells	10 min
Live-cell protease	#abs50193	CTF-LTM 2D Fluorescent Cell Viability Assay Kit	Fluorescence， Ex: 380nm Em: 510nm	96/384	A cell density of 100 cells	0.5-3h
Mitochondrial dehydrogenase	#abs50010	MTT Cell Proliferation and Cytotoxicity Assay Kit	Absorbance， OD570 nm	96	A cell density of 1000 cells	4h
	#abs50011	MTS Cell Proliferation Assay Kit	Absorbance， OD490 nm	96/384	A cell density of 500 cells	1-4h
	#abs50003	CCK-8 Kit	Absorbance， OD450 nm	96/384	A cell density of 200 cells	1-4h
	#abs47047610	Alamar Blue Cell Proliferation and Cytotoxicity Detection Reagent	Absorbance， OD570 nm Fluorescence， Ex: 560nm Em: 590nm	96/384	A cell density of 100 cells	1-4h

 

Today's presentation concludes here. Subsequent updates will feature comprehensive reviews of apoptosis and cytotoxicity detection methods. Stay tuned.

 

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