# Alternative Pathway for Methyl Supply through the Coupling of SHMT1 and PEMT to Maintain Astrocytic Homeostasis in Parkinson's Disease

**Authors:** Yue‐Han Chen, Rong‐Xin Zhu, Nuo‐Xi Zhang, Ting‐Ting Sun, Xi‐Wei Zhang, Yu‐Jie Zhao, Ben‐Yu He, Hang Yao, Ren‐Hong Du, Lei Cao, Wen‐Bin Zhang, Wei‐Guo Liu, Yun Cai, Cong Wang, Gang Hu, Yao Wei, Yang Liu, Ming Lu

PMC · DOI: 10.1002/advs.202516794 · Advanced Science · 2025-11-20

## TL;DR

A new metabolic pathway involving SHMT1 and PEMT in astrocytes helps maintain methyl supply in Parkinson's disease, and its disruption worsens the disease.

## Contribution

Discovery of a novel SHMT1-PEMT metabolic link connecting one-carbon and membrane phospholipid metabolism in Parkinson's disease.

## Key findings

- SHMT1 downregulation in astrocytes reduces SAM levels and worsens Parkinson's symptoms.
- SHMT1 interacts with PEMT to produce PDME, maintaining SAM despite SHMT1 changes.
- Disrupting SHMT1-PEMT interaction causes H3K4me1 hypomethylation and reduced Slc1a2/Glul expression.

## Abstract

Serine Hydroxymethyltransferase 1 (SHMT1) plays a pivotal role in one‐carbon metabolism, facilitating the production of SAM. In this study, dysregulation of one‐carbon metabolism is reported in both Parkinson's disease (PD) patients and animal models, characterized by significantly downregulated expression of SHMT1. Astrocyte‐specific conditional knockout of Shmt1 decreased SAM level, exacerbated motor dysfunction, and dopaminergic neuronal loss in a PD mouse model. While SAM is conventionally generated through the one‐carbon cycle, the data indicate that, despite significant alterations in SHMT1, SAM remains unaffected while labeled 13C‐Serine. Intriguingly, isotopic labeling experiments revealed a significant association between SHMT1 and the production of PDME, an intermediate metabolite of the phosphatidylethanolamine methylation pathway. Consequently, PEMT is discovered as interacting with SHMT1. It is demonstrated that disruption of the interaction between SHMT1 and PEMT leads to SAM depletion, causing H3K4me1 hypomethylation, which in turn reduces the expression of Slc1a2 and Glul. As a result, decoupling of SHMT1 and PEMT in astrocytes ultimately exacerbates neuroexcitotoxicity and dopaminergic neuron loss in PD. Thus, the study elucidates the novel metabolic connection between SHMT1 and PEMT that links the astrocytic one‐carbon cycle and membrane phospholipid metabolism in PD.

In Parkinson's disease, SHMT1 downregulation disrupts its interaction with PEMT in astrocytes, reducing SAM levels. This leads to H3K4me1 hypomethylation and decreased Slc1a2/Glul expression, ultimately exacerbating neuroexcitotoxicity and dopaminergic neuron loss. This study reveals a novel SHMT1‐PEMT link connecting one‐carbon and membrane phospholipid metabolism in PD pathogenesis.

## Linked entities

- **Genes:** SHMT1 (serine hydroxymethyltransferase 1) [NCBI Gene 6470], PEMT (phosphatidylethanolamine N-methyltransferase) [NCBI Gene 10400], SLC1A2 (solute carrier family 1 member 2) [NCBI Gene 6506], GLUL (glutamate-ammonia ligase) [NCBI Gene 2752]
- **Chemicals:** SAM (PubChem CID 34755), PDME (PubChem CID 9547021)
- **Diseases:** Parkinson's disease (MONDO:0005180)

## Full-text entities

- **Genes:** SHMT1 (serine hydroxymethyltransferase 1) [NCBI Gene 6470] {aka CSHMT, SHMT, hcSHMT}, PEMT (phosphatidylethanolamine N-methyltransferase) [NCBI Gene 10400] {aka PEAMT, PEMPT, PEMT2, PLMT}, SLC1A2 (solute carrier family 1 member 2) [NCBI Gene 6506] {aka DEE41, EAAT2, EIEE41, GLT-1, GLT1, HBGT}, GLUL (glutamate-ammonia ligase) [NCBI Gene 2752] {aka DEE116, GLNS, GS, PIG43, PIG59}
- **Diseases:** motor dysfunction (MESH:D000068079), loss (MESH:D016388), PD (MESH:D010300)
- **Chemicals:** carbon (MESH:D002244), 13C-Serine (-), phospholipid (MESH:D010743), phosphatidylethanolamine (MESH:C483858), PDME (MESH:C000629606)
- **Species:** Mus musculus (house mouse, species) [taxon 10090], Homo sapiens (human, species) [taxon 9606]

## Full text

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## Figures

7 figures with captions in the complete paper: https://tomesphere.com/paper/PMC12866788/full.md

## References

32 references — full list in the complete paper: https://tomesphere.com/paper/PMC12866788/full.md

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Source: https://tomesphere.com/paper/PMC12866788