Apoptosis Assays

Cell Based Assays for Apoptosis Detection

Apoptosis, or programmed cell death, is a growth-limiting regulatory mechanism by which cells can trigger their own death in response to extracellular signals because of irreparable cellular or DNA damage. The ability of tumor cells to elude apoptosis is a hallmark of most types of cancer.  Apoptosis also plays an important role in developmental mechanisms, such as preventing the overgrowth of neuronal cell lineages in the developing brain and regulating interdigital spacing in limb development. Autophagy and apoptosis are connected and extensive crosstalk occurs between the two. For example, during nutrient deficiency, autophagy functions as a pro-survival mechanism. However, excessive autophagy may lead to cell death, a process morphologically distinct from apoptosis. Apoptosis is a multistep process including early, mid and late-stage cellular events which can be detected using various cellular assays including Annexin V, Caspase and TUNEL detection methods outlined below.

Apoptosis Signaling Pathways

Apoptosis Signaling Pathways

 

Stages of Apoptosis

Early-Stage Events: Translocation of phosphatidylserine to the outer leaf of plasma membrane (1), loss of mitochondrial membrane potential (2), cytochrome C & ATP release (3) and activation of caspase-8 and 9 (4).

Mid-Stage Events: Activation of caspase-3, 6 and 7 (5), Poly-ADP-Ribose polymerase (PARP) cleavage (6), cell shrinkage (7), and activation of nucleases (8).

Late-Stage Events: DNA fragmentation (9), nuclear collapse (10), formation of apoptotic bodies (11), and phagocytosis by macrophages (12).

Early-Stage Apoptosis

Annexin V Assays: Phosphatidylserine is normally confined in the inner membrane leaflet of viable cells. The translocation of phosphatidylserine to the exposed membrane surface is an early event in apoptosis, where it serves as a signal for the attack of phagocytic cells. Annexins are a family of structurally related proteins that can bind specifically to cellular membranes. Annexin V has a very high affinity for membranes containing the negatively charged phospholipid phosphatidylserine and can be used as marker of early apoptosis events.
 

Product Description Detection Options Sample Type Application Part Number
ApopNexin™ Kits (EMD) Fluorometric Adherent Cells/ Suspension Cells Immunofluorescence APT750, PF032, CBA059, CBA060
Guava/Muse Annexin V Assay Kits (EMD) Fluorometric Suspension Cells Flow Cytometry 4500-0450, 4500-0455, FCCH100108, MCH100105,
Annexin-V Kits (Sigma) Fluorometric Adherent Cells/ Suspension Cells Immunofluorescence Flow Cytometry APOAF, APOAC, ROANNV, 11828681001

 

Dot plots depicting Jurkat cells treated with various concentrations of apoptosis inducers and stained using Annexin Red Kit

Figure 1. Dot plots depicting Jurkat cells treated with various concentrations of apoptosis inducers and stained using Annexin Red Kit (FCCH100108). Jurkat cells were untreated (Plot A), or treated with 0.1 uM (Plot B) or with 3 uM Staurosporine (Plot C) and then stained using FlowCelllect Annexin Red Kit.

Mitochondrial Detection: Mitochondria are important cellular organelles that maintain crucial cellular energy balance, contain key regulators of cell death processes such as apoptosis and play a significant role in cellular oxidative stress generation. Collapse of mitochondrial membrane potential is believed to coincide with the permeabilization of the outer mitochondrial membrane, and release of Cytochrome C and other pro-apoptotic proteins into the cytosol, which then triggers the downstream events in the apoptotic cascade.
 

Product Description Detection Options Sample Type Application Part Number
Guava® Mitochondrial
Depolarization/Stress/ Damage Kits (EMD)
Fluorometric Suspension Cells Flow Cytometry 4500-0250, FCCH100109, FCCH100106
MitoLight® Mitochondrial
Apoptosis Detection Kits (EMD)
Fluorometric Adherent Cells/ Suspension Cells Immunofluorescence APT142, APT242
Mitochondrial Membrane Potential Kit (Sigma) Fluorometric Adherent Cells/ Suspension Cells Immunofluorescence/ Flow Cytometry MAK159, MAK160
Cytochrome C Assay Kits (Sigma) Colorimetric Adherent Cells/ Suspension Cells Plate Reader CY0100, CYTOCOX1
Mitochondria Isolation Kits (Sigma) N/A Adherent Cells/ Suspension Cells Isolation MITOISO1, MITOISO2, CS0760
JC-1 Dye (Sigma) Fluorometric Adherent Cells/ Suspension Cells Live Cell Imaging T4069

Mid-Stage Apoptosis

Caspase Detection Assays: A central component of the apoptotic process is a cascade of proteolytic enzymes called caspases. Caspases participate in a series of reactions that are triggered in response to pro-apoptotic signals and result in the cleavage of protein substrates, causing the disassembly of the cell.  Caspase enzymes specifically recognize a 4 or 5 amino acid sequence on the target substrate which necessarily includes an aspartic acid residue. This residue is the target for cleavage, which occurs at the carbonyl end of the aspartic acid residue.
 

Product Description Detection Options Sample Type Application Part Number
CaspaTag™ Pan-Caspase
CaspaTag™ Caspase-3,7
CaspaTag™ Caspase-8
CaspaTag™ Caspase-9
Fluorometric Adherent Cells/ Suspension Cells/Tissue Immunofluorescence/ Cytometry/Plate Reader APT400, APT420
APT403, APT423
APT408, APT428
APT409, APT429
CaspSCREEN™ Kit (EMD) Fluorometric Suspension Cells Cytometry APT105
Guava® Caspase Kits (EMD) Fluorometric Suspension Cells Flow Cytometry 4500-0500, 4500-0530, 4500-0540, 4500-0550
Caspase Activity Kits (EMD) Fluorometric/ Colorimetric/ Chemiluminescent Cell Lysates Plate Reader APT129, APT131, APT165, APT171, APT173
Caspase 3/8 Assay Kit (Sigma) Fluorometric/ Colorimetric Adherent Cells/ Suspension Cells Immunofluorescence/Cytometry CASP3C, CASP3F, CASP8C, APPA015

CaspaTag Pan-Caspase In Situ Fluorescein Assay Kit

Figure 2. CaspaTag Pan-Caspase In Situ Fluorescein Assay Kit (APT400) uses a carboxyfluorescein-labeled fluoromethyl ketone peptide inhibitor of caspase (FAM-VAD-FMK), which produces a green fluorescence when added to a population of cells. The probe enters each cell and covalently binds to a reactive cysteine residue that resides on the large subunit of the active caspase heterodimer, thereby inhibiting further enzymatic activity.

Late-Stage Apoptosis

TUNEL Assays: DNA fragmentation in apoptosis is usually associated with structural changes in cellular morphology and is a hallmark of late-stage apoptosis. DNA fragmentation in apoptosis can be examined using the TUNEL assay. The in situ staining of DNA strand breaks detected by the TUNEL assay and subsequent visualization by light microscopy gives biologically significant data about DNA damage and late-stage apoptosis.

The ApopTag™ family of apoptosis kits examine DNA fragmentation by the TUNEL assay

Figure 3. The ApopTag™ family of apoptosis kits examine DNA fragmentation by the TUNEL assay. The DNA strand breaks are detected by enzymatically labeling the free 3’-OH termini with modified nucleotides. These new DNA ends that are generated upon DNA fragmentation are typically localized in morphologically identifiable nuclei and apoptotic bodies.
 

Product Description Detection Options Sample Type Application Part Number
Guava® TUNEL Kit (EMD) Fluorometric Suspension cells Flow Cytometry 4500-0121
ApopTag® TUNEL Kits (EMD) Fluorometric/ Colorimetric Adherent Cells/ Suspension Cells/Tissue Immunohistochemistry/ Immunofluorescence/ Cytometry S7100, S7101, S7110, S7111, S7160, S7165
ApopTag® ISOL Kits (EMD) Fluorometric/ Colorimetric Adherent Cells/ Suspension Cells/Tissue Immunohistochemistry/ Immunofluorescence APT1000, S7200
FragEL™ DNA Fragmentation Detection Kits (EMD) Fluorometric/ Colorimetric Adherent Cells/ Suspension Cells/Tissue Immunohistochemistry/ Immunofluorescence QIA21, QIA33, QIA39
Flow Cytometry Kit for Apoptosis (Sigma) Fluorometric Suspension cells Flow Cytometry APOBRDU
Cell Death Detection Kits (Roche) Fluorometric/ Colorimetric Adherent Cells/ Suspension Cells/ Tissue Immunohistochemistry/ Immunofluorescence/ ELISA 06432344001, 11835246001, 11585045001, 11684795910, 11684809910, 11684817910, 12156792910,
CELLDETH-RO

Detection of apoptotic cells

Figure 4. A) Detection of apoptotic cells in human lymph node with ApopTag® Peroxidase (S7200). The tissue was fixed in 10% neutral-buffered formalin and paraffin-embedded. B) Detection of apoptotic cells with ApopTag® Fluorescein Direct kit (S7160) in mouse embryo forelimb bud, fixed with 10% neutral-buffered formalin and paraffin-embedded. C) Detection of apoptotic cells with ApopTag® Red (S7165) in human lymph node tissue, fixed with 10% neutral-buffered formalin and paraffin-embedded.

H2A.X Assays: Double-stranded DNA breaks (DSB) are generated that rapidly result in the phosphorylation of histone variant H2A.X. Because phosphorylation of H2A.X at Ser139 correlates well with each DSB, phospho-H2A.X is a sensitive marker used to examine DNA damage and late stage apoptosis.
 

Product Description Detection Options Sample Type Application Part Number
H2A.X Phosphorylation Assay Kit (EMD) Chemiluminescent Adherent Cells/ Suspension Cells ELISA 17-327
H2A.X Phosphorylation Assay Kit (EMD) Fluorometric Suspension cells Flow Cytometry 17-344
FlowCellect™ Histone H2A.X Phosphorylation Assay Kit (EMD) Fluorometric Suspension cells Flow Cytometry FCCS100182

 

Conclusion

Programmed cell death (apoptosis) is controlled by multiple signaling and effector pathways linked to mitochondrial depolarization, caspase related apoptotic enzyme cascades, DNA fragmentation and ultimately cell blebbing and destruction. The integrity of these and other links can be genetically compromised in many diseases such as cancer making detection and measurement of apoptosis extremely useful in many research assays. Our well-published apoptosis assays, including the ApopTag® family of the TUNEL assays and the CaspaTag™ family of In Situ Caspase detection assays allows reproducible insights into cell death mechanisms.