Tagged: gastric cancer

Oncotarget

Combining Regorafenib and TAS102 to Target Gastrointestinal Cancers and Overcome Cancer Stemness

August 9, 2024

In this research paper, researchers demonstrate a promising new treatment option for refractory metastatic gastrointestinal cancers using a combination of two FDA-approved drugs.

Researchers Jun Zhang, Lanlan Zhou, Shuai Zhao, and Wafik S. El-Deiry from Fox Chase Cancer Center and Brown University explore the potential of combining TAS102 (trifluridine/tipiracil) and regorafenib as a treatment option for gastrointestinal (GI) cancers. Their research paper, published in Oncotarget’s Volume 15 on July 2, 2024, is entitled, “Regorafenib synergizes with TAS102 against multiple gastrointestinal cancers and overcomes cancer stemness, trifluridine-induced angiogenesis, ERK1/2 and STAT3 signaling regardless of KRAS or BRAF mutational status.”

The Study

The combination of two FDA-approved drugs, TAS102 and regorafenib, has shown promising results in preclinical studies. TAS102 is an oral formulation consisting of trifluridine (FTD) and tipiracil hydrochloride (TPI). It has been approved by the US FDA for the treatment of refractory metastatic colorectal cancer and metastatic gastric cancer. Regorafenib is a multi-target tyrosine kinase inhibitor that inhibits tumor angiogenesis and cell proliferation and is approved for the treatment of gastrointestinal cancers.

Recent studies have shown that TAS102, in combination with regorafenib, can lead to improved survival and restrict tumor progression. The combination therapy has been found effective in multiple gastrointestinal cancer cell lines, including colorectal, gastric, and pancreatic cancers.

Cancer stem cells (CSCs) are a subpopulation of cancer cells that contribute to tumor growth, recurrence, and chemo-resistance. Targeting CSCs can be an effective approach to overcoming therapy resistance and preventing tumor progression. TAS102, in combination with regorafenib, has been shown to reduce the stemness of colorectal cancer cells, inhibiting the formation of colonospheres and reducing the CD133+ subpopulation.

Tumor angiogenesis, the formation of new blood vessels, is essential for tumor growth and metastasis. TAS102 monotherapy has been found to promote angiogenesis in tumors harboring a BRAF mutation. However, when combined with regorafenib, TAS102-induced angiogenesis is abrogated, as regorafenib inhibits the formation of microvessels in xenografted tumors.

The combination therapy of TAS102 and regorafenib regulates several signaling pathways, including ERK1/2 and STAT3, and modulates the expression of thymidylate synthase (TS), which is involved in drug resistance.

Conclusion

The combination of TAS102 and regorafenib shows synergistic effects in preclinical studies, inhibiting tumor growth, reducing the stemness of cancer cells, and inhibiting angiogenesis. Further research is needed to explore the efficacy of this combination therapy in clinical settings and to identify potential biomarkers of drug sensitivity. The TAS102 plus regorafenib drug combination may be further tested in gastric and other GI cancers.

“Recent studies have shown that TAS102 in combination with regorafenib can lead to improved survival and restrict tumor progression.”

Click here to read the full research paper in Oncotarget.

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Oncotarget

How High Altitudes Influence HIF-1, Gastric Cancer & Patient Survival

September 27, 2022

In a new study, researchers evaluated the high altitude in Ecuador and how it may influence HIF-1 expression and the survival of Ecuadorian patients with gastric cancer.

El Panecillo hill in Quito, Ecuador
El Panecillo hill in Quito, Ecuador
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Altitude is considered any elevation above sea level. Higher altitude environments are known to influence various physiological processes in the human body, including those related to hypoxia-inducing factors (HIF), vitamin D, ultraviolet radiation, oxygen toxicity, and changes in pH. Researchers have suggested that altitude may even affect the development and progression of some diseases, including stomach/gastric cancer.

“Gastric cancer is the third leading cause of death in the world and is estimated to cause almost 15 million deaths by 2035 [2].”

Gastric Cancer & Altitude

The primary subtype of gastric cancer is gastric adenocarcinoma (GA). GA develops in the mucus-secreting cells that line the stomach (gastric epithelium). Higher incidence rates of GA have been found among populations living at high altitudes. High altitudes are notorious for low air pressure and decreased oxygen saturation levels. Decreases in oxygen (hypoxia) can activate the transcriptional regulator hypoxia-inducing factor-1 (HIF-1). HIF-1 is known to be upregulated in a variety of human cancers, including GA. The role of HIF-1 in GA pathogenesis and prognosis has not yet been fully understood.

“Gastric adenocarcinoma (GA) has a high incidence in Ecuador, in men it ranks third and in women it ranks fifth.”

There is a higher incidence of GA among people living in Ecuador. This is a country that straddles the equator yet, the altitude in Ecuador varies significantly across the country. For example, the altitude is 2,850 meters in the capital city of Quito (the second-highest capital city in the world). In Guayaquil (a coastal city in Ecuador) the altitude is only nine meters. These facts make Ecuador an optimal location for studying the effects of altitude on gastric adenocarcinoma.

“Ecuador has a varied altitude diversity and there is a differential incidence of cancer between populations living in the Andean or mountainous region when compared to coastal populations or living at low altitude.”

The Study

In a new retrospective study, researchers Edwin Cevallos Barrera, Edson Zangiacomi Martinez, Mariangela Ottoboni Brunaldi, Eduardo Antonio Donadi, Ajith Kumar Sankarankutty, Rafael Kemp, and José Sebastiao dos Santos from Universidad Central del Ecuador and University of São Paulo evaluated the high altitude in Ecuador and how it may influence HIF-1 expression and the survival of Ecuadorian patients with GA. Their research paper was published on September 14, 2022, in Oncotarget’s Volume 13, entitled, “Influence of high altitude on the expression of HIF-1 and on the prognosis of Ecuadorian patients with gastric adenocarcinoma.”

A total of 229 Ecuadorians were assessed in this study. The researchers included 155 cases of GA; 99 of the individuals with GA lived in the mountainous regions of Quito and Ambato, and 56 individuals lived in the coastal region of Guayaquil. (Controls accounted for 74 people; 25 from the coast and 49 from the mountains.) The team followed-up with all individuals in this study from 2005 to 2018 and collected blood and tissue samples. They performed immunohistochemistry and other analyses to evaluate HER2 and HIF-1 expression.

“Analyses were performed using Fisher’s exact and Breslow-Day tests for homogeneity and Kaplan-Meier curves and restricted median survival time ΔRMST.”

Results & Conclusion

After 10 years, median survival was significantly higher among GA patients living along the coast. In the GA samples, HIF-1 was observed in 66.1% of the coastal patients and in 43.4% of the mountainous patients. Positive HIF-1 expression was associated with improved survival among GA patients living in the mountains. Interestingly, in the control group (without GA), HIF-1 expression was observed in 95.9% of the mountainous samples and only 32% of the coastal samples. Their results showed that 89% of the control population exhibited gastritis.

The researchers were forthcoming about the limitations of this study. Differences in quantities and the male-to-female ratios within the GA and control coastal and mountainous groups may have influenced data. Despite these limitations, the researchers observed that coastal GA patients and individuals who expressed HIF-1 had a better prognosis. However, HIF-1 expression was only associated with better survival in the mountain region. These findings suggest that HIF-1 expression may be a protective factor against GA progression in people living at high altitudes.

“Concluding, this study suggests that HIF-1 has a differential expression pattern in gastric samples according to geographical features, being highly expressed even in non-carcinomatous cells (gastritis and normal mucosa) from individuals living in regions of high altitude, indicating that the gastric HIF-1 expression may be an adaptation of the individual to high altitudes.”

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