Overview
Lynch syndrome (OMIM #120435) is the most common dominantly inherited colorectal cancer syndrome with an estimated prevalence of 1:270 individuals. It increases the lifetime risk of colorectal and endometrial cancer primarily, but it is associated with a high risk of other cancers (pancreas, stomach, ovarian, central nervous system, skin, among others). It is caused by a germline mutation in one of four DNA mismatch repair genes or a terminal deletion of the MSH2-adjacent gene EpCAM.
Despite adherence to cancer surveillance programs, many patients still develop colorectal cancer and endometrial cancer. The Prospective Lynch Syndrome Database (PLSD) suggests that more frequent surveillance intervals do not significantly improve cancer risk reduction. The PLSD also revealed that the incidence of colorectal cancer in MLH1 and MSH2 carriers was even higher than previously expected, reaching as high as 41-36% among MLH1 carriers, regardless of ethnic background. The development of colorectal cancer despite surveillance is an unresolved question. Therefore, there is an unmet need for effective cancer prevention strategies.
Description
The risk of developing colorectal cancer in individuals with Lynch syndrome remains high despite endoscopic surveillance.
In Lynch Syndrome, the cancer-formation process is characterized by the development of immunogenic neo-antigens in the mucosa. These neoantigens, called frame-shift peptides, can be recognized by the adaptive immune systems, and trigger the formation of antibodies against them (termed anti-frame-shift peptides antibodies). Anti-frame-shift peptide antibodies have been reported in some Lynch syndrome patients (defined dichotomously as the presence vs absence of anti-frame-shift peptide antibodies). This study hypothesizes that anti-frame-shift peptide antibodies represent an early biomarker of cancer development in Lynch syndrome. These anti-frame-shift peptide antibodies may be used to identify early patients at the highest risk of developing colorectal cancer. All studies on anti-frame-shift peptide antibodies have had a cross-sectional design, while a retro-prospective design would be desirable to understand the interaction between the mucosa and the mucosa-associated immune system. There is also limited evidence that individuals with Lynch syndrome develop mismatch repair-deficient crypts before colorectal cancer development. The development of interval colorectal cancers may require specific biological processes. Understanding the biological processes underlying these interval colorectal cancers would help define targets of innovative therapies to prevent colorectal cancer (including but not limited to chemoprevention strategies and cancer vaccines). The interactions between the mucosa immune surveillance and the colonic epithelium are the cornerstone to answer such questions. Finally, the development of gastric cancer via non-canonical pathways (non-Correa, non-HPylori) demands a better understanding of the pathogenesis in individuals with Lynch syndrome.
MicroRNA (miRNA) expression has been shown to have diagnostic, prognostic, and therapeutic potential. While they offer high detection sensitivity, the heterogeneity limits their detection accuracy. Exosomes are excreted by cancer cells and possess specific exosomal miRNA signatures. Since circulating cell-free miRNAs offer excellent sensitivity but may suffer from inadequate specificity, while exosomal miRNAs are highly tissue-specific but might lack sensitivity, a combination of these biomarkers could offer an optimal combination of sensitivity and specificity. 98.5% of the total DNA is non-coding regions with roles in gene regulation, alternative splicing, interaction with transcription factors, and sequences capable of moving around the genome and promoting carcinogenesis. The understanding of non-coding DNA seems to be important in cancer early diagnosis.
Lynch syndrome-associated colorectal cancers are high immunogenic lesions with abundant lymphocyte infiltration. This study aims to develop an extensive profile of the immunosuppressive and regulatory cellular population in blood and tumor sites to identify patients with higher risks of cancer development.
Recent data have demonstrated the presence of intratumor bacteria in both cancer and immune cells. Therefore, this study also aims to analyze in colonic biopsies from Lynch syndrome patients with- and without tumors the presence of microbiota as an early signature for carcinogenesis.
Eligibility
Inclusion Criteria (for participants with Lynch syndrome):
- Age ≥18 years
- All sexes eligible
- Established diagnosis of Lynch syndrome performed as part of clinical practice, with a germline pathogenic/likely pathogenic variant in one of the following genes: MLH1, MSH2, MSH6, PMS2, and EpCAM
- Subjects with Lynch syndrome undergoing surveillance gastrointestinal endoscopy and/or surgery according to clinical practice
- Fertile patients (both males and females) are eligible
- Lactating women are eligible
Inclusion Criteria (for participants without Lynch syndrome):
- Age ≥18 years
- All sexes eligible
- Patients with sporadic colorectal lesions, including colorectal cancer and colorectal adenomas
- Healthy controls without colorectal cancer or adenomas undergoing lower gastrointestinal endoscopy for abdominal pain
- PREMM5 < 2.5 [PREMM5 is an online, free-to-use, clinical prediction algorithm that estimates the cumulative probability of an individual carrying a germline mutation in the mismatch repair genes responsible for Lynch syndrome].
Exclusion Criteria (for participants with or without Lynch syndrome):
- Age < 18 years;
- Diseases that are known to predispose to colorectal cancer (personal past or recent history of inflammatory bowel disease);
- Patients unable/unwilling to provide consent;
- Pregnancy