The Significance of Ras Activity in Pancreatic Cancer Initiation.
Study Goal
The researchers aimed to investigate how high-fat diet, among other stimulants, influences the activation of oncogenic K-Ras(mt) and accelerates pancreatic ductal adenocarcinoma (PDAC) formation.
Results Summary
The study found that high-fat diet, at high concentrations, induces inflammation that, in the presence of oncogenic K-Ras expression, substantially accelerates PDAC formation by increasing K-Ras(mt) activity and forming a feed-forward loop between K-Ras activity and inflammation.
Population
Genetically modified adult mouse models with endogenous oncogenic K-Ras(mt).
Effective Dosage
Not specified
Duration
Not specified
Interactions
None mentioned
| Intervention | Direction | Endpoint | Population | Dosage | Impact | Claim # |
|---|---|---|---|---|---|---|
high fat diet | increase | K-Ras activity | - | modest increases | have physiological effects | #1 |
high fat diet | increase | inflammation | - | - | induce inflammation | #2 |
CCK | increase | K-Ras activity | - | modest increases | have physiological effects | #3 |
CCK | increase | inflammation | - | - | induce inflammation | #4 |
LPS | increase | K-Ras activity | - | modest increases | have physiological effects | #5 |
LPS | increase | inflammation | - | - | induce inflammation | #6 |
PGE2 | increase | K-Ras activity | - | modest increases | have physiological effects | #7 |
PGE2 | increase | inflammation | - | - | induce inflammation | #8 |
high concentrations of stimulants (high fat diet, CCK, LPS, PGE2) | increase | PDAC formation | models with endogenous oncogenic K-Ras(mt) | - | substantially accelerates | #9 |
Cox2 inhibitor celecoxib | decrease | feed-forward loop | - | - | block | #10 |
Cox2 inhibitor celecoxib | decrease | induction of PDAC | models with endogenous oncogenic K-Ras(mt) | - | prevent | #11 |
The genetic landscape of pancreatic cancer shows nearly ubiquitous mutations of K-RAS. However, oncogenic K-Ras(mt) alone is not sufficient to lead to pancreatic ductal adenocarcinoma (PDAC) in either human or in genetically modified adult mouse models. Many stimulants, such as high fat diet, CCK, LPS, PGE2 and others, have physiological effects at low concentrations that are mediated in part through modest increases in K-Ras activity. However, at high concentrations, they induce inflammation that, in the presence of oncogenic K-Ras expression, substantially accelerates PDAC formation. The mechanism involves increased activity of oncogenic K-Ras(mt). Unlike what has been proposed in the standard paradigm for the role of Ras in oncogenesis, oncogenic K-Ras(mt) is now known to not be constitutively active. Rather, it can be activated by standard mechanisms similar to wild-type K-Ras, but its activity is sustained for a prolonged period. Furthermore, if the level of K-Ras activity exceeds a threshold at which it begins to generate its own activators, then a feed-forward loop is formed between K-Ras activity and inflammation and pathological processes including oncogenesis are initiated. Oncogenic K-Ras(mt) activation, a key event in PDAC initiation and development, is subject to complex regulatory mechanisms. Reagents which inhibit inflammation, such as the Cox2 inhibitor celecoxib, block the feed-forward loop and prevent induction of PDAC in models with endogenous oncogenic K-Ras(mt). Increased understanding of the role of activating and inhibitory mechanisms on oncogenic K-Ras(mt) activity is of paramount importance for the development of preventive and therapeutic strategies to fight against this lethal disease.