Laboratory applications DNase is commonly used when
purifying proteins that are extracted from
prokaryotic organisms.
Protein extraction often involves the degradation of the
cell membrane. It is common for the degraded and fragile cell membrane to be
lysed, releasing unwanted DNA and the desired proteins. The resulting DNA-protein extract is highly viscous and difficult to purify, in which case DNase is added to break it down. The DNA is
hydrolyzed but the proteins are unaffected and the extract can undergo further purification.
Treatment Extracellular DNA (ecDNA) is DNA that is found in blood circulation. It appears as a result of
apoptosis,
necrosis, or
neutrophil extracellular traps (NET)-osis of blood and tissue cells, but can also arise from the active secretion from living cells. EcDNA and their designated
DNA binding proteins are able to activate DNA-sensing receptors,
pattern recognition receptors (PRRs). PRRs are able to stimulate pathways that cause an inflammatory immune response. As a result, several studies of inflammatory diseases have found that there are high concentrations of ecDNA in blood plasma. For this reason, DNase has proven to be a possible treatment for the reduction of ecDNA in the blood plasma. DNases can be excreted both intracellularly and extracellularly and can cleave the DNA
phosphodiester bond. This function can be used to maintain a low ecDNA concentration, therefore treating inflammation. Illnesses that result from DNA residue in blood have been targeted using the "breaking-down properties" of DNase. Studies have shown DNase to be able to act as a treatment by decreasing the viscosity of mucus. Administration of DNase varies dependent on the disease. It can and has been administered
orally, intrapleurally,
intravenously,
intraperitoneally, and via
inhalation. Several studies continue to examine the application of DNase as treatment as well as ways to monitor health. For example, recently, DNase derived from
pathogenic bacteria has been used as an indicator for wound infection monitoring.
Respiratory diseases Cystic fibrosis is a
genetic disorder that affects the production of mucus, sweat, and digestive fluids, causing them to become more viscous rather than
lubricant. DNase enzymes can be inhaled using a
nebulizer by
cystic fibrosis sufferers. DNase enzymes help because
white blood cells accumulate in the mucus, and, when they break down, they release DNA, which adds to the 'stickiness' of the mucus. DNase enzymes break down the DNA, and the mucus is much easier to clear from the lungs. Specifically, DNase I, also known as FDA approved drug
Pulmozyme (also known as dornase alfa) is used as a treatment to increase pulmonary function. Other respiratory illness such as
asthma,
pleural empyema,
Systemic lupus erythematosus (SLE) is an
autoimmune disease that results in auto-antibody generation causing inflammation that results in damage to organs, joints, and kidneys. SLE has been linked with low levels of DNase I as
apoptotic cells become self-
antigens in this disease. DNase I has been investigated as a possible treatment to decrease the amount of apoptotic debris in the human system. It has been suggested that their difficulty might be due to the inability for the enzyme to break down the cell membrane of
chromatin. Studies have shown conflicting results on this treatment, however, further research is being conducted to examine the therapeutic benefits of DNase I.
Anti-tumor treatment. DNase is known to hold anti-tumor effects due to its ability to break down DNA. High levels of DNA are found to be in cancer patients' blood, suggesting that DNase I might be a possible treatment. There is still a lack of understanding as to why there are such high levels of ecDNA and whether or not DNase will act as an effective treatment. Several mice studies have shown positive results in anti-tumor progression utilizing intravenous DNase I. However, more investigations need to be carried out before being introduced to the public. == Assays ==