News Release

Unraveling the mystery of hereditary diffuse gastric cancer

Peer-Reviewed Publication

First Hospital of Jilin University

Role of E-cadherin molecule as cell adhesion molecule and tumour suppressor gene.

image: 

Mutation of CDH1 gene results in dysfunction of E-cadherin and release of β-catenin to the cytoplasm. Wnt protein binds to cell surface frizzled receptor and leads to translocation of β-catenin from the cytoplasm to the nucleus. β-catenin promotes transcription of target genes which include C-MYC, an oncogene that promotes cell growth and cell proliferation (created by BioRender.com).

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Credit: By Mokhtari-Esbuie F, Szeglin B, Rouhani Ravari M, et al.

Gastric cancer, a significant global health burden, claims over 7% of cancer-related deaths annually. Although only 1-3% of cases have a genetic basis, understanding these genetic drivers is crucial for developing preventative strategies.

Gastric cancer, a formidable foe in the global health arena, casts a long shadow over millions of lives each year. While its tendrils reach far and wide, a distinct subset – hereditary diffuse gastric cancer (HDGC) – emerges as a particularly aggressive and enigmatic adversary. This group of cancers, accounting for roughly 10% of all gastric cancer cases, exhibits a chilling pattern of familial clustering, hinting at a deeper genetic melody playing beneath the surface.

Unravelling the secrets of HDGC has led scientists to a crucial player: the CDH1 gene. This gene, the blueprint for a protein called E-cadherin, acts as the glue that binds cells together, forming the tight-knit communities that make up healthy tissues.

Mutations in CDH1 disrupt this delicate dance, causing cells to lose their grip and embark on a journey of uncontrolled growth – the hallmark of cancer. Over 100 unique mutations in CDH1 have been identified, each a discordant note in the symphony of a healthy genome. In roughly 40% of families burdened by HDGC, these mutations act as the conductor, orchestrating the tragic progression of the disease.

However, the story of HDGC is not solely etched in the pages of the CDH1 gene. Other players, like CTNNA1 and MAP3K6, join the chorus, adding layers of complexity to the genetic landscape of this cancer. Like a misplaced instrument, each gene mutation contributes to the disharmony that defines HDGC.

Understanding this intricate interplay of genetic factors remains a key challenge, but it holds immense promise for unlocking new avenues of prevention and treatment.

Despite the lingering mysteries, a beacon of hope shines through – prophylactic total gastrectomy (PTG). This surgical procedure, though drastic, offers a life-saving option for individuals with a ticking time bomb of CDH1 mutations and a family history of HDGC. By removing the stomach, the potential breeding ground for cancer, PTG effectively silences the discordant melody and prevents the tragic symphony from playing out. While PTG comes with its own set of challenges, it stands as the only definitive preventive measure currently available for these high-risk individuals.

The battle against HDGC is far from over. Unravelling the complexities of its genetic drivers, deciphering the supporting roles of other genes, and refining our understanding of the interplay between genetics and environment are crucial steps in the fight. With continued research and unwavering dedication, we can hope to one day rewrite the script of HDGC, replacing its tragic verses with a triumphant chorus of prevention and cure.

 

See the article: 

Mokhtari-Esbuie F, Szeglin B, Rouhani Ravari M, et al. Pioneering use of genetic analysis for CDH1 to identify candidates for prophylactic total gastrectomy to prevent hereditary diffuse gastric cancer. eGastroenterology 2023;1:e100017. doi:10.1136/egastro-2023-100017

 

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