Hbl-2 In Vitro Reactive Nitrogen Species Assay (Oxidative Stress)
CAT#: ITS-0123-YF3634
Target Cell Organism: Human
Target Cell Name: Hbl-2
Assay Type: Oxidative Stress Assays
Assay Overview
This assay is to provide Hbl-2-based In Vitro Reactive Nitrogen Species Assay (Oxidative Stress) to accelerate our client's oncology projects. The assay will be customized according to the specific requirements. Please contact our scientists to discuss more details.
Target Cell Name
Hbl-2
Target Cell Organism
Human
Target Cell Background
The HBL-2 cell line is derived from an AIDS-SNCCL (AIDS-associated small non-cleaved cell lymphoma) patient. After immunophenotypic and molecular genetic analysis, the HBL-2 was established from the original tumor clones. The HBL-2 cell line presents surface immunoglobulin and B-cell restricted markers as well as a phenotype consistent with SNCCL; the cell line also displays clonal immunoglobulin gene rearrangement. The HBL-2 cell line is considered useful as a biological model to study AIDS-associated non-Hodgkin lymphomagenesis (AIDS-NHL) and the impacts of biological, immunological, and viral factors involved.
Related Diseases
Mantle Cell Lymphoma; MCL
Research Area
Oncology
Assay Name
In Vitro Reactive Nitrogen Species Assay (Oxidative Stress)
Assay Description
The production of reactive nitrogen species can also occur as a result of oxidative stress. Levels of nitrite (NO2-) and nitrate (NO3-) can be measured in cell lysates, plasma and urine as an oxidative stress marker and several nitrate/nitrite assay kits have been developed to measure nitrite (NO2-) and nitrate (NO3-) levels.
Assay Type
Oxidative Stress Assays
Assay Type Details
Disturbance between the production of reactive oxygen species (ROS), free radicals and antioxidant mechanisms is defined as the oxidative stress, or more precisely, it is an imbalance between the oxidant and antioxidant state in cells. This imbalance can cause harmful effects to cells and biomolecules, which ultimately causes adverse effects in the whole organism. Oxidative imbalance can target important proteinsand lipids in cells, which can increase the risk of developing a cancer. On the other hand, increased ROS production in cancer cells by certain cancer drugs can also arrest cancer cell cycle and cause senescence and apoptosis through oxidative stress.