# Metagenomics and metabolomics integrated to explore the protective mechanisms of Mongolian medicine Zadi-5 in myocardial ischemic model rats

**Authors:** Riga Wu, Wen Zu, Lisi Wei, Rihan Wu, Si Su, Ruhan A, Tengarile A, Nirile E, Hua Li, Rilebagen Hu, Li Li

PMC · DOI: 10.3389/fmicb.2025.1677322 · Frontiers in Microbiology · 2026-02-09

## TL;DR

This study explores how a traditional Mongolian medicine called Zadi-5 protects the heart by improving gut health and regulating metabolism in rats with heart disease.

## Contribution

The study reveals that Zadi-5 protects against heart injury by regulating gut microbiota and glutamate-glutamine metabolism.

## Key findings

- Zadi-5 significantly reduced myocardial injury markers in rats.
- Zadi-5 altered gut microbiota diversity and abundance.
- Zadi-5 regulated glutamine and glutamate metabolism pathways.

## Abstract

Myocardial ischemia (MI) is a pathological state of abnormal energy metabolism caused by insufficient blood and oxygen supply to the coronary arteries. The “gut-heart axis” theory plays an important role in myocardial ischemia occurrence, mechanism, prevention, and cure. Traditional Mongolian medicine posits that “internal diseases originate from gastrointestinal dysfunction,” linking the intestine, a key component of the digestive system, to physiological and pathological changes in the heart. Furthermore, the traditional Mongolian clinical treatment of cardiovascular diseases includes guidelines for digestive system function corresponding to the modern concept of the gut-heart axis. Accordingly, Zadi-5, a traditional Mongolian medicine, has been used for over 200 years to prevent and treat cardiovascular diseases. However, the mechanism by which the gut microbiota and metabolism are regulated to protect an ischemic heart is unclear.

This study aimed to investigate the potential mechanism by which Zadi-5, through its interaction with the gut microbiota and metabolic pathways, alleviates myocardial ischemic injury induced by a high-fat diet and isoproterenol (ISO).

Sprague-Dawley rats were divided into control, model, Zadi-5 high-dose, and Zadi-5 low-dose groups. All groups, except the control group, were fed a high-fat diet for 4 weeks. Subsequently, all animals received subcutaneous injections of 4 mg/kg ISO daily for 3 days to induce a myocardial infarction (MI) rat model. The pharmacological effects of Zadi-5 on MI were assessed using electrocardiography (ECG), hematoxylin-eosin (HE) staining of myocardial tissue, and serum levels of cardiac troponin T (cTn-T), creatine kinase-MB (CK-MB), lactate dehydrogenase (LDH), total cholesterol (TC), triglycerides (TG), low-density lipoprotein cholesterol (LDL-C), and high-density lipoprotein cholesterol (HDL-C). Furthermore, fecal metagenomics and serum untargeted metabolomics were performed to investigate the protective mechanisms of Zadi-5 against MI. Finally, MetOrigin was used to analyze the correlation between key metabolic pathways and the gut microbiota to elucidate the mechanism by which Zadi-5 protects against myocardial ischemia.

First, the MI rat model was successfully established by ISO, and Zadi-5 significantly preserved MI injury, according to ECG recording, index of TC, TG, LDL-C, cTn-T, LDH, CK-MB, and histopathology results. Second, Zadi-5 regulates gut microbiota diversity and abundance, as well as glutamine and glutamate metabolism. The mechanism is related to the gut microbiota phyla Actinobacteria, Firmicutes, Bacteroidetes, and Proteobacteroidetes, and classes Gammaproteobacteria, Betaproteobacteria, Bacteroidia, Actinomycetes, Clostridia, and Bacilli. Zadi-5 also regulates L-glutamic acid, L-glutamine, ornithine, and oxaceprol metabolisms.

Zadi-5 exerts cardioprotective effects in MI rats by improving dysbiosis of the gut microbiota and regulating the glutamate–glutamine metabolism pathway. This may represent only one of the complicated protective mechanisms of Zadi-5 against MI. The cardioprotective mechanisms of Zadi-5 will be explored at the molecular and cellular levels.

## Linked entities

- **Chemicals:** isoproterenol (PubChem CID 3779), L-glutamic acid (PubChem CID 23327), L-glutamine (PubChem CID 5961), ornithine (PubChem CID 389), oxaceprol (PubChem CID 65784)
- **Diseases:** myocardial ischemia (MONDO:0024644)

## Full-text entities

- **Genes:** Slc13a2 (solute carrier family 13 member 2) [NCBI Gene 65202] {aka Nadc1, mucin}, Gls (glutaminase) [NCBI Gene 24398] {aka Glut, RATGLUT}, Bax (BCL2 associated X, apoptosis regulator) [NCBI Gene 24887], Tnnt2 (troponin T2, cardiac type) [NCBI Gene 24837] {aka CTTG, Ctt, RATCTTG, Tnnt3}, Bcl2 (BCL2, apoptosis regulator) [NCBI Gene 24224] {aka Bcl-2}, Pik3cb (phosphatidylinositol-4,5-bisphosphate 3-kinase, catalytic subunit beta) [NCBI Gene 85243], Akt1 (AKT serine/threonine kinase 1) [NCBI Gene 24185] {aka Akt}, Il1b (interleukin 1 beta) [NCBI Gene 24494] {aka IL-1F2}, Mpo (myeloperoxidase) [NCBI Gene 303413], Tnf (tumor necrosis factor) [NCBI Gene 24835] {aka RATTNF, TNF-alpha, Tnfa}
- **Diseases:** myocardial injury (MESH:D009202), stroke (MESH:D020521), coronary artery disease (MESH:D003324), cardiac dysfunction (MESH:D006331), stomach disease (MESH:D013272), arrhythmia (MESH:D001145), heart failure (MESH:D006333), infarct (MESH:D007238), internal (MESH:D000082122), coronary stenosis (MESH:D023921), ischemia (MESH:D007511), metabolism disorder (MESH:D008659), necrosis (MESH:D009336), blood lipid lesions (MESH:D011017), pain (MESH:D010146), lipid metabolism disorders (MESH:D052439), atherosclerosis (MESH:D050197), CHD (MESH:D003327), injury (MESH:D014947), HL (MESH:C538324), gastric ulcers (MESH:D013276), inflammation (MESH:D007249), fibrosis (MESH:D005355), hyperlipemia (MESH:D006949), internal disease (MESH:D002340), platelet aggregation (MESH:D001791), cardiac metabolic abnormalities (MESH:D024821), angina (MESH:D000787), myocardial infarction (MESH:D009203), CVD (MESH:D002318), non-alcoholic fatty liver disease (MESH:D065626), Myocardial ischemia (MESH:D017202), gastrointestinal dysfunction (MESH:D005767)
- **Chemicals:** ammonium acetate (MESH:C018824), phenolic acids (MESH:C017616), isoflurane (MESH:D007530), lipid (MESH:D008055), ammonium hydroxide (MESH:D064753), ISO (MESH:D007545), ATP (MESH:D000255), water (MESH:D014867), glutathione (MESH:D005978), D-glutamine (MESH:D005973), ethanol (MESH:D000431), cholesterol (MESH:D002784), flavonoids (MESH:D005419), galactose (MESH:D005690), eosin (MESH:D004801), ACN (MESH:C084683), Glu (MESH:D018698), A-KG (MESH:D007656), ammonia (MESH:D000641), oxygen (MESH:D010100), hematoxylin (MESH:D006416), fat (MESH:D005223), OPLS-DA (-), proline (MESH:D011392), ornithine (MESH:D009952), Methanol (MESH:D000432), secoiridoid glycosides (MESH:D057889), acetonitrile (MESH:C032159), TG (MESH:D014280), oxaceprol (MESH:C012393), tricarboxylic acid (MESH:D014233), arginine (MESH:D001120), carbohydrate (MESH:D002241), Amino acids (MESH:D000596)
- **Species:** Inula helenium (elecampane, species) [taxon 55635], Enterobacteriaceae (enterobacteria, family) [taxon 543], Bacillota (clostridial firmicutes, phylum) [taxon 1239], Piper longum (species) [taxon 49511], Erysipelotrichia (class) [taxon 526524], Bacilli (class) [taxon 91061], Enterobacterales (order) [taxon 91347], Ruminococcus (genus) [taxon 1263], Clostridia (class) [taxon 186801], Bacteroidia (class) [taxon 200643], Actinomycetota (actinobacteria, phylum) [taxon 201174], Bacteroidales (order) [taxon 171549], Eubacteriales (order) [taxon 186802], Dolomiaea costus (kuth, species) [taxon 324593], Myristica fragrans (mace, species) [taxon 51089], Homo sapiens (human, species) [taxon 9606], Rattus norvegicus (brown rat, species) [taxon 10116], Gammaproteobacteria (g-proteobacteria, class) [taxon 1236], Bacteroides (genus) [taxon 816]
- **Mutations:** Glu-Gln, Gln-Glu, R00260, glutamine-glutamate

## Full text

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## Figures

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## References

33 references — full list in the complete paper: https://tomesphere.com/paper/PMC12926489/full.md

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Source: https://tomesphere.com/paper/PMC12926489