Angiotensinogen

Angiotensinogen: what is it and how does it affect our body

Angiotensinogen (also known as hypertensinogen) is a glycoprotein that is a precursor to angiotensin I, a biologically active peptide that regulates blood pressure and is involved in a number of other processes in the body.

Angiotensinogen is produced and released into the blood primarily by the liver, but can also be produced by several other tissues, including the kidneys, lungs, and heart. Once angiotensinogen enters the bloodstream, it can be processed and converted into angiotensin I by the enzyme renin, which is secreted in the kidneys.

Angiotensin I is then converted to angiotensin II by the enzyme angiotensin-converting enzyme (ACE), which is also secreted in the kidneys as well as other tissues such as the lungs and heart. Angiotensin II is a powerful vasoconstrictor, that is, a substance that narrows blood vessels and increases blood pressure.

In addition, angiotensin II is involved in the regulation of electrolyte balance in the body, increasing sodium excretion and decreasing potassium excretion. It also stimulates the production of aldosterone, a hormone that increases sodium reabsorption in the kidneys and reduces its excretion in urine.

Due to its effects on blood pressure and electrolyte balance, angiotensin II plays an important role in the pathogenesis of hypertension and cardiovascular diseases such as heart failure, myocardial infarction and stroke.

Some medications, such as ACE inhibitors and angiotensin II receptor blockers, are used to treat hypertension and other cardiovascular diseases. They work by blocking the action of angiotensin II and reducing its effect on the body.

Thus, angiotensinogen is an important biological marker associated with the regulation of blood pressure and electrolyte balance in the body. Its role in the pathogenesis of cardiovascular diseases makes it a valuable object of research in the field of medicine.



Angiotenogen is a blood protein that is synthesized in the liver and other tissues of the body. Its main function is to produce and secrete into the bloodstream the hormone angiotensin, which is responsible for maintaining blood pressure. However, in addition to this, angiotenogen also plays an important role in regulating the functioning of other body systems, such as the nervous and immune systems.

Angioteninogen is a protein that is produced normally in the human body, but its deficiency in the blood disrupts the functioning of many vital systems. Angioteninogen deficiency manifests itself in various forms: from mild attacks of dizziness to serious forms of heart failure. At the same time, diagnosing this problem is difficult due to the absence of characteristic symptoms, which often leads to serious complications and a significant deterioration in the patient’s quality of life.

The reasons for the lack of angiotensinogen can be different: this is liver disease, leading to disruption of protein metabolism, and disruption of the immune system, and diseases of the cardiovascular system, which can significantly reduce the level of angiotensinogen. To clarify the causes of the pathology, additional studies are prescribed: venous blood analysis and urine analysis. Depending on the results of these studies, it is possible to clarify the causes of the deficiency of this protein and prescribe appropriate treatment.

One of the treatment methods is replacement therapy - taking substances containing angiotensinogen that maintain blood pressure. Also, to combat protein deficiency, specialized diets, sports training to increase immunity and improve metabolism, and complexes of vitamins and minerals can be used. It is also important to maintain a healthy lifestyle, exercise, drink enough water and avoid stress, as all of these factors can also affect the levels of angtotensigeehygoaein in the blood.

In general, a lack of angiotensin segnogeus can lead to serious health problems and a deterioration in the quality of daily life. It is important to monitor the activity levels of each of these proteins and take the necessary measures to restore them or prevent deficiency.