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The Therapeutic Landscape for KRAS-Mutated Colorectal Cancers

Colorectal cancer is one of the world's most prevalent and lethal cancers. Mutations of the KRAS gene occur in ~40% of metastatic colorectal cancers. While this cohort has historically been difficult to manage, the last few years have shown exponential growth in the development of selective inhibitors targeting KRAS mutations. Their foremost mechanism of action utilizes the Switch II binding pocket and Cys12 residue of GDP-bound KRAS proteins in G12C mutants, confining them to their inactive state. Sotorasib and Adagrasib, both FDA-approved for the treatment of non-small cell lung cancer (NSCLC), have been pivotal in paving the way for KRAS G12C inhibitors in the clinical setting. Other KRAS inhibitors in development include a multi-targeting KRAS-mutant drug and a G12D mutant drug. Treatment resistance remains an issue with combination treatment regimens including indirect pathway inhibition and immunotherapy providing possible ways to combat this. While KRAS-mutant selective therapy has come a long way, more work is required to make this an effective and viable option for patients with colorectal cancer.

 

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Colorectal cancer is indeed a significant global health concern due to its high prevalence and mortality rates. The presence of KRAS gene mutations, particularly in the form of G12C mutations, is a common characteristic observed in approximately 40% of metastatic colorectal cancers. Historically, managing this cohort of patients has been challenging. However, recent years have witnessed remarkable progress in the development of selective inhibitors targeting KRAS mutations, offering new hope for effective treatment options.

Selective inhibitors primarily focus on the Switch II binding pocket and the Cys12 residue of GDP-bound KRAS proteins, specifically targeting the G12C mutants. By doing so, these inhibitors effectively lock the mutant proteins into an inactive state. Sotorasib and Adagrasib are two such inhibitors that have gained FDA approval for the treatment of non-small cell lung cancer (NSCLC) with KRAS G12C mutations. Their success in clinical trials has paved the way for the development of KRAS G12C inhibitors for other cancer types, including colorectal cancer.

In addition to G12C inhibitors, researchers are also exploring other approaches to target different KRAS mutations. One such approach involves developing a multi-targeting drug that can address various KRAS mutants simultaneously. Furthermore, efforts are underway to develop inhibitors specific to the G12D mutant of KRAS.

Despite the progress made in KRAS-mutant selective therapy, the issue of treatment resistance remains a challenge. To overcome this, combination treatment regimens are being investigated, which involve combining KRAS inhibitors with indirect pathway inhibition and immunotherapy. By targeting multiple pathways simultaneously, these combination therapies aim to enhance treatment efficacy and mitigate the development of resistance.

While significant strides have been made in the development of KRAS-mutant selective therapies, more research and clinical trials are necessary to refine these treatments and make them effective and viable options for patients with colorectal cancer. Continued efforts in this field hold promise for improving patient outcomes and reducing the burden of colorectal cancer worldwide.