KR20220011395A - Biomarker composition for early diagnosing preeclampsia and method of diagnosis using the same - Google Patents

Abstract

The present invention relates to a biomarker composition for early diagnosis of pregnancy toxaemia using blood from a mother in an early stage of pregnancy and a technology about a diagnosis method using the same, and more specifically, can provide a biomarker for early diagnosis of pregnancy toxaemia, wherein it was confirmed that the expression levels of oxytocin, testosterone and estrogen in the blood of a patient with preeclampsia during early pregnancy were significantly increased compared to those of mothers without pregnancy toxaemia, and through confirmation of the expression levels of oxytocin, testosterone, or estrogen in the blood of an actual pregnant woman, it was confirmed that the present invention shows excellent efficiency in diagnosis of pregnancy toxaemia. Accordantly, the progress of pregnancy toxaemia can be predicted in advance by checking the expression levels of oxytocin, testosterone and estrogen in the blood of a mother in early pregnancy.

Description

Biomarker composition for early diagnosis of preeclampsia and method of diagnosis using the same

An object of the present invention is to provide a biomarker composition for early diagnosis of preeclampsia using blood in early pregnancy and a diagnostic method using the same.

Preeclampsia (PE) is a major cause of perinatal mortality and accounts for 5-8% of all pregnant women. Typical major symptoms include high blood pressure, edema and pregnancy-toxic increase in urine protein, severe headache, and sudden weight gain. Pregnancy poisoning usually occurs after 20 weeks and is a major cause of premature birth. However, its exact cause and treatment method have not been clearly identified so far, and the only treatment method is to get out of pregnancy through childbirth. However, if pregnancy poisoning occurs, it can increase the mortality of the fetus due to premature delivery.

However, in pregnant women after 20 weeks of pregnancy (multiple after 32 weeks), it is possible to diagnose using various indicators such as hypertension, proteinuria, and edema. has never been

Oxytocin is mainly produced in cells located in the hypothalamus, and is stored in the posterior lobe of the pituitary gland, where their neurites are exposed, and is then secreted by nerve signals. It is synthesized in other parts of the brain or in various peripheral tissues including the ovaries, uterus, amniotic membrane and placenta, and in men, it is also synthesized in mesenchymal cells located in the tubules. In humans, oxytocin is synthesized using the OXT (oxytocin/neurophysin I) gene product as a precursor. In the process of secretion, it is decomposed into small peptides to complete oxytocin. At this time, a portion of the cut peptide becomes neurophysin I, which is stably bound to oxytocin in the blood.

Oxytocin is synthesized through two major pathways. The first is transcriptional regulation of genes, which are regulated by other hormones such as estrogen and neurotransmitters. In addition, it is known that the vitamin C concentration in the tissue secreting oxytocin regulates the production of oxytocin because vitamin C is required in the process of completion. The secretion process is regulated by the generation of action potentials by other nerve signals. Oxytocin receptors are widely distributed in the muscle layer forming the uterine lining and play an important role in inducing uterine contractions during childbirth.

Although many studies have been conducted on the role of oxytocin on uterine contractions, studies on oxytocin and pregnancy addiction, a pregnancy-related hypertensive syndrome, are lacking. development is needed.

Republic of Korea Patent Publication No. 10-2019-0057529 (published on May 29, 2019)

An object of the present invention is to provide a biomarker capable of early diagnosis of preeclampsia, which has a high mortality rate for both pregnant women and fetuses, using the blood of a pregnant woman in early pregnancy, and a method for diagnosing preeclampsia using the same.

The present invention provides a biomarker composition for early diagnosis of preeclampsia comprising two or more hormones selected from the group consisting of testosterone, estrogen and oxytocin.

The present invention provides a kit for early diagnosis of preeclampsia containing, as an active ingredient, an agent for detecting the expression level of a hormone selected from the group consisting of testosterone, estrogen and oxytocin.

In addition, the present invention comprises the steps of collecting a sample isolated from the mother of 12 to 13 weeks of pregnancy; confirming the expression level of two or more hormones selected from the group consisting of testosterone, estrogen and oxytocin in the collected sample; And it provides a method for early diagnosis of preeclampsia comprising the step of comparing the hormone expression level with a normal control group.

According to the present invention, it was confirmed that the expression levels of oxytocin, testosterone and estrogen in the blood of preeclampsia patients in early pregnancy were significantly increased compared to that of normal mothers. As it is confirmed that very good preeclampsia diagnostic efficiency appears, the expression levels of oxytocin, testosterone and estrogen can be checked from the mother's blood in early pregnancy to predict the progression of preeclampsia in advance. It can be provided as a biomarker for early diagnosis of preeclampsia. have.

1 shows the results of confirming the PIGF level and the sFlt-1/PIGF ratio in blood samples of a normal control group and a patient with preeclampsia.
Figure 2 is the result of confirming the levels of oxytocin, testosterone (testoterone) and estrogen (Estrogen) in the normal control group and the blood samples of preeclampsia patients.
3 is a result confirming the levels of oxytocin (OXT), testosterone (T) and estrogen (E2) in the initial blood of pregnant women suspected of preeclampsia with a systolic blood pressure of 140 mmHg or more.

Hereinafter, the present invention will be described in more detail.

Preeclampsia is a hypertensive disease that occurs during pregnancy, with an incidence of more than 5% of pregnant women after 20 weeks of pregnancy. Therefore, the present inventors found that the expression levels of oxytocin and other hormones secreted during pregnancy in the early blood of pregnant women with preeclampsia are different from those of normal mothers while researching a method for diagnosing preeclampsia at an early stage. The present invention was completed in order to confirm and diagnose preeclampsia at an early stage of pregnancy.

The present invention may provide a biomarker composition for early diagnosis of preeclampsia comprising two or more hormones selected from the group consisting of testosterone, estrogen and oxytocin.

The preeclampsia may be diagnosed in the 12th to 13th weeks of pregnancy in the early stages of pregnancy.

The biomarker composition may further include a placental growth factor (PlGF, NCBI No. 5228).

More specifically, the biomarker composition for early diagnosis of preeclampsia may be provided as a biomarker for early diagnosis of preeclampsia by combining oxytocin with one or two or more hormones from the group consisting of testosterone, estrogen and PlGF, more preferably oxytocin, It may be a biomarker composition including all of testosterone, estrogen and PlGF, but is not limited thereto.

The present invention can provide a kit for early diagnosis of preeclampsia containing, as an active ingredient, an agent for detecting the expression level of a hormone selected from the group consisting of testosterone, estrogen and oxytocin.

The early diagnosis kit may further include an agent for detecting the expression level of the PlGF protein or a gene encoding the protein.

The agent may be one selected from the group consisting of primers, probes, antibodies, peptides and aptamers.

In addition, the present invention comprises the steps of collecting a sample isolated from the mother of 12 to 13 weeks of pregnancy; confirming the expression level of two or more hormones selected from the group consisting of testosterone, estrogen and oxytocin in the collected sample; And it can provide a method for early diagnosis of preeclampsia comprising the step of comparing the hormone expression level with a normal control group.

The expression level of two or more hormones selected from the group consisting of testosterone, estrogen and oxytocin may be increased compared to the normal control group.

The early diagnosis of preeclampsia may be to further confirm the expression level of placental growth factor (PlGF).

The PlGF expression level may be decreased compared to the normal control group.

The sample may be selected from the group consisting of blood, urine, tissue, and saliva, and more preferably may be blood, but is not limited thereto.

In the present invention, the expression levels of testosterone, estrogen and oxytocin are reverse transcription-polymerase chain reaction (RT-PCR), enzyme-linked immunosorbent assay (ELISA), radioimmunoassay ( radioimmunoassay), immunohistochemistry, microarray, western blotting, and flow cytometry (FACS) may be used to measure at least one selected from the group consisting of.

The "biomarker" of the present invention is a substance that can distinguish and diagnose the blood, tissue, or cells of a subject suspected of or having developed preeclampsia from the blood, tissue or cells of a normal control group. , organic biomolecules such as proteins or nucleic acids, lipids, glycolipids, glycoproteins, and the like, which show an increase or decrease in tissue or cells.

"Diagnosis" of the present invention means in a broad sense to judge the actual condition of a patient's disease in all aspects. The content of the judgment is the name of the disease, etiology, type, severity, detailed mode of the disease, and the presence or absence of complications.

Hereinafter, to help the understanding of the present invention, examples will be described in detail. However, the following examples are merely illustrative of the content of the present invention, and the scope of the present invention is not limited to the following examples. The embodiments of the present invention are provided to more completely explain the present invention to those of ordinary skill in the art.

<Example 1> Sample collection

At Pusan National University Hospital, blood was collected from 1,463 mothers during the first 12 to 13 weeks of pregnancy, and the collected blood samples were immediately stored at -80°C. Among the mothers, the blood of patients with preeclampsia who had a systolic blood pressure of 140 mmHg or more or a diastolic blood pressure of 90 mmHg or more, measured at least 6 hours after the 20th week of pregnancy, was selected.

The collected blood was collected in plastic tubes under aseptic conditions using EDTA as an anticoagulant, and centrifuged at 18,472 × g for 10 minutes at 4°C to separate the serum.

Table 1 shows the clinical characteristics between the control group and the preeclampsia patient group.

<Example 2> Confirmation of changes in the blood of preeclampsia patients

Biomarkers for early diagnosis of preeclampsia were identified using the blood of preeclampsia patients collected earlier.

The levels of sFlt-1, PIGF, testosterone (T), estrogen (E2) and oxytocin (OXT) were measured using enzyme-linked immunoabsorbent assays (ELISA).

Early pregnancy blood was obtained from an ELISA kit (sFlt-1: Cat. No. MVR100, R&D Systems, Inc, Minneapolis, MN, USA; PlGF: Cat. No. DPG00, R&D Systems; Testosterone (T): Cat. No. KA0236, Abnova, Taoyuan, Taiwan: Estrogen (E2): Cat. No. 582231, Cayman Chemical Company, Ann Arbor, MI, USA; Oxytocin (OXT): Cat. No. ADI-900-153A-0001, Enzo Life Sciences, NY , USA) was used to measure absorbance using an Epoch spectrometer (Biotek, Santa Barbara, Ca, USA) according to the method provided by the manufacturer.

Quantitative analysis of sFlt-1, PlGF, testosterone (T), estrogen (E2) and oxytocin (OXT) was performed using the measured absorbance values using a quantitative graph of the standard curve corresponding to each ELISA kit.

In addition, the Ryoshu diagnosis (sFlt-1/PIGF), a method for diagnosing the risk of preeclampsia in women over 20 weeks of pregnancy by confirming the ratio of increasing sFlt-1 and decreasing PIGF in the conventional preeclampsia mother, was performed together.

As a result, as shown in FIG. 1 , it was confirmed that the PIGF level of the preeclampsia patient was decreased compared to the normal control group, and the sFlt-1/PIGF ratio was also increased.

However, referring to Figure 2, steroid hormones testosterone (T), estrogen (E2), and peptide hormone oxytocin (OXT) in the early pregnancy blood of preeclampsia patients compared to normal pregnant women 40%, 47% and 42%, respectively It was confirmed that there was a significant increase. In addition, as a result of quantitative analysis of each hormone in the early pregnancy blood of normal pregnant women and pregnant women suspected of preeclampsia selected according to blood pressure, each hormone was significant in the initial blood of pregnant women with systolic blood pressure of 140 mmHg or higher as shown in FIG. It could be seen that there was a positive increase.

From the above results, testosterone, estrogen and oxytocin can be suggested as biomarkers for early diagnosis of preeclampsia.

<Example 3> Confirmation of early diagnosis efficiency of preeclampsia of biomarkers

To use the testosterone (T), estrogen (E2) and oxytocin (OXT) identified in the previous experiment as biomarkers for early diagnosis of preeclampsia, the diagnosis efficiency of preeclampsia was confirmed.

First, testosterone (T), estrogen (E2), oxytocin (OXT) and PIGF, which are candidate biomarkers for early diagnosis of preeclampsia measured using the ELISA kit, from blood samples of preeclampsia patients in early pregnancy compared to normal patients Blood levels were significantly increased, and patients with above the average value were selected for each candidate biomarker.

In addition, in the case of combining several types of biomarkers by combining 2, 3, or 4 types of candidate biomarkers for the selected patients, the effect on the efficiency of early diagnosis of preeclampsia was confirmed.

As a result, as shown in Table 2, when oxytocin was combined with testosterone, estrogen, or PIGF, it was confirmed that the diagnostic efficiency of preeclampsia was increased. It was confirmed that a more improved diagnostic rate was exhibited.

In addition, it was confirmed that 90% of positive responses were obtained when using 4 types of biomarkers including PIGF of the existing diagnostic method.

From the above results, it was confirmed that testosterone, estrogen, and oxytocin can be used as biomarkers for early diagnosis of pregnancy addiction, and excellent diagnostic effects can be exhibited in a very simple way from the mother's blood in early pregnancy through the combination of the biomarkers. .

As described above in detail a specific part of the present invention, for those of ordinary skill in the art, it is clear that this specific description is only a preferred embodiment, and the scope of the present invention is not limited thereby. something to do. Accordingly, the substantial scope of the present invention will be defined by the appended claims and their equivalents.

Claims (11)

A biomarker composition for early diagnosis of preeclampsia comprising two or more hormones selected from the group consisting of testosterone, estrogen and oxytocin. The biomarker composition for early diagnosis of preeclampsia according to claim 1, wherein the preeclampsia is diagnosed in the 12th to 13th weeks of pregnancy in the early stages of pregnancy. The biomarker composition for early diagnosis of preeclampsia according to claim 1, wherein the biomarker composition further comprises a placental growth factor (PlGF). A kit for early diagnosis of preeclampsia comprising, as an active ingredient, an agent for detecting the expression level of a hormone selected from the group consisting of testosterone, estrogen and oxytocin. The kit for early diagnosis of preeclampsia according to claim 4, wherein the kit for early diagnosis further comprises an agent for detecting the expression level of the PlGF protein or a gene encoding the protein. The kit for early diagnosis of preeclampsia according to claim 4, wherein the agent is selected from the group consisting of primers, probes, antibodies, peptides and aptamers. collecting samples isolated from mothers of 12 to 13 weeks of gestation;
confirming the expression level of two or more hormones selected from the group consisting of testosterone, estrogen and oxytocin in the collected sample; and
Comparing the hormone expression level with a normal control group; Preeclampsia early diagnosis method comprising a. The method according to claim 7, wherein the expression level of two or more hormones selected from the group consisting of testosterone, estrogen and oxytocin is increased compared to the normal control group. The method for early diagnosis of preeclampsia according to claim 7, wherein the method for early diagnosis of preeclampsia further confirms the expression level of a placental growth factor (PlGF). The method according to claim 7, wherein the PlGF expression level is decreased compared to the normal control group. The method according to claim 7, wherein the sample is selected from the group consisting of blood, urine, tissue and saliva.

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