Overview
SCIENTIFIC SCORE
Possibly Effective
Based on 9 Researches
7.9
USERS' SCORE
Moderately Good
Based on 6 Reviews
7.8
Supplement Facts
Serving Size: 1 Capsule
Amount Per Serving
%DV
Taurine
1,000 mg
†
Top Medical Research Studies
8
We conducted a nested case-control study within a large cohort to understand how levels of taurine, S-adenosylmethionine (SAM), and cysteine in our blood are related to cancer risk, particularly among Chinese adults. Our analysis included 1,391 cancer cases matched with 1,391 controls, providing a robust framework for our findings.
Our results showed that higher levels of taurine in the blood could reduce overall cancer risk, particularly for digestive cancers. This is an exciting discovery as it suggests that taurine might play a protective role. On the contrary, elevated levels of SAM appeared linked to an increased risk of digestive cancers.
Using advanced statistical models, we identified complex interactions among taurine, SAM, and cysteine. Notably, we observed a significant overall negative association between the combination of these amino acids and cancer risk, highlighting the intricate balance these compounds maintain in our metabolism.
Overall, while taurine seems to confer some protective benefits, the specific metabolic relationships and their implications for treatment and prevention strategies need further exploration. Our findings could pave the way for new approaches in cancer prevention.
Our results showed that higher levels of taurine in the blood could reduce overall cancer risk, particularly for digestive cancers. This is an exciting discovery as it suggests that taurine might play a protective role. On the contrary, elevated levels of SAM appeared linked to an increased risk of digestive cancers.
Using advanced statistical models, we identified complex interactions among taurine, SAM, and cysteine. Notably, we observed a significant overall negative association between the combination of these amino acids and cancer risk, highlighting the intricate balance these compounds maintain in our metabolism.
Overall, while taurine seems to confer some protective benefits, the specific metabolic relationships and their implications for treatment and prevention strategies need further exploration. Our findings could pave the way for new approaches in cancer prevention.
Read More
8
We conducted an in-depth exploration of taurine's relationship with colorectal cancer (CRC) through a systematic review of existing studies. Our investigation looked at various research studies to gather insights into how taurine levels relate to cancer.
We discovered a significant association between higher taurine levels and the presence of CRC. Specifically, findings indicated that taurine concentrations were elevated in CRC patient samples, particularly in blood. More importantly, taurine showed potential as a diagnostic marker, which could help to distinguish between benign and malignant conditions in patients at differing stages of cancer.
Despite these promising results, it’s worth noting that there was considerable variability in some outcomes across different studies. This highlights the need for further research to clarify taurine’s role, but our analysis suggests an overall trend indicating that increased taurine may be linked to greater odds of developing CRC.
As we continue to look into the connection between taurine and colorectal cancer, it opens up exciting possibilities for future diagnostics and treatments that leverage our understanding of metabolic changes associated with this disease.
We discovered a significant association between higher taurine levels and the presence of CRC. Specifically, findings indicated that taurine concentrations were elevated in CRC patient samples, particularly in blood. More importantly, taurine showed potential as a diagnostic marker, which could help to distinguish between benign and malignant conditions in patients at differing stages of cancer.
Despite these promising results, it’s worth noting that there was considerable variability in some outcomes across different studies. This highlights the need for further research to clarify taurine’s role, but our analysis suggests an overall trend indicating that increased taurine may be linked to greater odds of developing CRC.
As we continue to look into the connection between taurine and colorectal cancer, it opens up exciting possibilities for future diagnostics and treatments that leverage our understanding of metabolic changes associated with this disease.
Read More
7
We set out to understand the role of taurine, a naturally occurring acid in our bodies, in lung cancer development. Previous findings indicated that elevated taurine levels were present in lung cancer patients, prompting us to investigate its impact more closely.
Through our research involving mouse models, RNA sequencing, and stable transfection techniques, we observed significant insights into how taurine may affect lung cancer progression. We analyzed tissue samples from non-small cell lung cancer patients to enhance our findings and help clarify the relationship between taurine and cancer.
Our results suggest that while taurine may be a potential biomarker, its effects can differ based on the patient's age and immune status. For younger lung cancer patients, taurine-rich drinks could potentially pose risks, while older or immune-deficient patients may benefit from such treatments. Overall, the specific mechanisms of taurine’s impact on cancer progress warrant further exploration and suggest careful consideration for future treatments.
Through our research involving mouse models, RNA sequencing, and stable transfection techniques, we observed significant insights into how taurine may affect lung cancer progression. We analyzed tissue samples from non-small cell lung cancer patients to enhance our findings and help clarify the relationship between taurine and cancer.
Our results suggest that while taurine may be a potential biomarker, its effects can differ based on the patient's age and immune status. For younger lung cancer patients, taurine-rich drinks could potentially pose risks, while older or immune-deficient patients may benefit from such treatments. Overall, the specific mechanisms of taurine’s impact on cancer progress warrant further exploration and suggest careful consideration for future treatments.
Read More
Most Useful Reviews
9
Cancer prevention
This product prevents the onset of cancer and reduces blood glucose levels. It assists in the formation and restoration of the retina within the eyes after injuries and helps to normalise blood pressure. The quality is exceptional, and the dosage is excellent.
Read More
9
Strong antioxidant
This supplement is a potent antioxidant that helps prevent the progression of cancer. It effectively lowers blood glucose levels and is involved in the formation of the retina, aiding recovery in case of injuries.
Read More
9
Excellent cancer prevention
This is a powerful natural antioxidant that combats oxidative processes in the body, alkalising and promoting cardiovascular health. It serves as an excellent preventive measure against cancer!
Read More
Medical Researches
SCIENTIFIC SCORE
Possibly Effective
Based on 9 Researches
7.9
- All Researches
9.5
We investigated how taurine, an important amino acid, influences the effectiveness of 5-fluorouracil (5-FU), a common chemotherapy drug used to treat colon cancer. In our study, we chemically induced cancer in rats and then treated them with taurine for eight days while observing their colon tissues.
Our findings revealed concerning trends among the different treatment groups. While the control group showed 80% of adenocarcinoma cases, those who received only 5-FU had 70%, and those on taurine alone reported 50%. Remarkably, no adenocarcinoma was found in the group treated with both 5-FU and taurine, suggesting a powerful synergy.
Additionally, we noted that while inflammatory responses and certain gene expressions remained similar across the cancer-induced groups, the expression of a critical protein (APC/β-catenin) increased in the combination group. This suggests that taking taurine might help harness the strengths of 5-FU while lowering potential adverse effects.
Despite some encouraging evidence, we did not observe any significant improvement in inflammation or gene markers typically associated with cancer. However, using taurine appears to normalize some concerning results linked directly to treatment with 5-FU. Overall, the combination shows potential for enhancing treatment outcomes in colon cancer.
Our findings revealed concerning trends among the different treatment groups. While the control group showed 80% of adenocarcinoma cases, those who received only 5-FU had 70%, and those on taurine alone reported 50%. Remarkably, no adenocarcinoma was found in the group treated with both 5-FU and taurine, suggesting a powerful synergy.
Additionally, we noted that while inflammatory responses and certain gene expressions remained similar across the cancer-induced groups, the expression of a critical protein (APC/β-catenin) increased in the combination group. This suggests that taking taurine might help harness the strengths of 5-FU while lowering potential adverse effects.
Despite some encouraging evidence, we did not observe any significant improvement in inflammation or gene markers typically associated with cancer. However, using taurine appears to normalize some concerning results linked directly to treatment with 5-FU. Overall, the combination shows potential for enhancing treatment outcomes in colon cancer.
Read More
8
We conducted a nested case-control study within a large cohort to understand how levels of taurine, S-adenosylmethionine (SAM), and cysteine in our blood are related to cancer risk, particularly among Chinese adults. Our analysis included 1,391 cancer cases matched with 1,391 controls, providing a robust framework for our findings.
Our results showed that higher levels of taurine in the blood could reduce overall cancer risk, particularly for digestive cancers. This is an exciting discovery as it suggests that taurine might play a protective role. On the contrary, elevated levels of SAM appeared linked to an increased risk of digestive cancers.
Using advanced statistical models, we identified complex interactions among taurine, SAM, and cysteine. Notably, we observed a significant overall negative association between the combination of these amino acids and cancer risk, highlighting the intricate balance these compounds maintain in our metabolism.
Overall, while taurine seems to confer some protective benefits, the specific metabolic relationships and their implications for treatment and prevention strategies need further exploration. Our findings could pave the way for new approaches in cancer prevention.
Our results showed that higher levels of taurine in the blood could reduce overall cancer risk, particularly for digestive cancers. This is an exciting discovery as it suggests that taurine might play a protective role. On the contrary, elevated levels of SAM appeared linked to an increased risk of digestive cancers.
Using advanced statistical models, we identified complex interactions among taurine, SAM, and cysteine. Notably, we observed a significant overall negative association between the combination of these amino acids and cancer risk, highlighting the intricate balance these compounds maintain in our metabolism.
Overall, while taurine seems to confer some protective benefits, the specific metabolic relationships and their implications for treatment and prevention strategies need further exploration. Our findings could pave the way for new approaches in cancer prevention.
Read More
8
We conducted a thorough investigation into how taurine, an amino acid, relates to pancreatic ductal adenocarcinoma (PDAC). Our study involved analyzing 54 pairs of tumor and matching normal pancreatic tissues using advanced metabolomics. We found that taurine levels in PDAC tissues were 2.51 times higher compared to normal tissues.
To confirm these findings, we used immunohistochemistry (IHC) on additional samples, which demonstrated a similar increase in taurine. Through bioinformatics, we identified 2-aminoethanethiol dioxygenase (ADO) as a crucial gene influencing taurine metabolism. Further IHC analysis confirmed elevated levels of ADO in PDAC tissues, indicating a potential link between ADO and tumor behavior.
Excitingly, we observed that the ADO-Taurine axis was associated with key clinical outcomes like disease-free survival and cancer recurrence. In experiments where we knocked down ADO, we noticed reduced cancer cell growth, suggesting that taurine metabolism could impact tumor progression. Overall, our findings point to elevated taurine synthesis in PDAC driven by ADO, presenting a promising target for future cancer therapies and a possible prognostic marker for patients.
To confirm these findings, we used immunohistochemistry (IHC) on additional samples, which demonstrated a similar increase in taurine. Through bioinformatics, we identified 2-aminoethanethiol dioxygenase (ADO) as a crucial gene influencing taurine metabolism. Further IHC analysis confirmed elevated levels of ADO in PDAC tissues, indicating a potential link between ADO and tumor behavior.
Excitingly, we observed that the ADO-Taurine axis was associated with key clinical outcomes like disease-free survival and cancer recurrence. In experiments where we knocked down ADO, we noticed reduced cancer cell growth, suggesting that taurine metabolism could impact tumor progression. Overall, our findings point to elevated taurine synthesis in PDAC driven by ADO, presenting a promising target for future cancer therapies and a possible prognostic marker for patients.
Read More
8
We conducted an in-depth exploration of taurine's relationship with colorectal cancer (CRC) through a systematic review of existing studies. Our investigation looked at various research studies to gather insights into how taurine levels relate to cancer.
We discovered a significant association between higher taurine levels and the presence of CRC. Specifically, findings indicated that taurine concentrations were elevated in CRC patient samples, particularly in blood. More importantly, taurine showed potential as a diagnostic marker, which could help to distinguish between benign and malignant conditions in patients at differing stages of cancer.
Despite these promising results, it’s worth noting that there was considerable variability in some outcomes across different studies. This highlights the need for further research to clarify taurine’s role, but our analysis suggests an overall trend indicating that increased taurine may be linked to greater odds of developing CRC.
As we continue to look into the connection between taurine and colorectal cancer, it opens up exciting possibilities for future diagnostics and treatments that leverage our understanding of metabolic changes associated with this disease.
We discovered a significant association between higher taurine levels and the presence of CRC. Specifically, findings indicated that taurine concentrations were elevated in CRC patient samples, particularly in blood. More importantly, taurine showed potential as a diagnostic marker, which could help to distinguish between benign and malignant conditions in patients at differing stages of cancer.
Despite these promising results, it’s worth noting that there was considerable variability in some outcomes across different studies. This highlights the need for further research to clarify taurine’s role, but our analysis suggests an overall trend indicating that increased taurine may be linked to greater odds of developing CRC.
As we continue to look into the connection between taurine and colorectal cancer, it opens up exciting possibilities for future diagnostics and treatments that leverage our understanding of metabolic changes associated with this disease.
Read More
8
Taurine mitigates irinotecan muscle damage
We explored the effects of taurine, a conditionally essential amino acid known for its antioxidant properties, on muscle dysfunction caused by irinotecan, a common chemotherapy drug for metastatic colorectal cancer. Our aim was to determine whether taurine could mitigate the negative impact of irinotecan on human skeletal muscle cells (HSkMCs).
We conducted experiments by treating these muscle cells with irinotecan while some were pre-treated with taurine. We carefully monitored how these treatments affected cell viability, toxicity, and the ability of the cells to differentiate into muscle fibers. Our findings revealed some encouraging results: taurine significantly improved cell viability, reduced toxicity, and preserved the cells' capability to differentiate, which had been compromised by irinotecan.
Remarkably, taurine also seemed to help counteract the oxidative stress and endoplasmic reticulum stress triggered by irinotecan. This suggests that taurine might be a valuable ally in enhancing muscle health for patients undergoing cancer treatment, potentially easing symptoms of cancer cachexia, which often arises due to chemotherapy-induced muscle dysfunction.
We conducted experiments by treating these muscle cells with irinotecan while some were pre-treated with taurine. We carefully monitored how these treatments affected cell viability, toxicity, and the ability of the cells to differentiate into muscle fibers. Our findings revealed some encouraging results: taurine significantly improved cell viability, reduced toxicity, and preserved the cells' capability to differentiate, which had been compromised by irinotecan.
Remarkably, taurine also seemed to help counteract the oxidative stress and endoplasmic reticulum stress triggered by irinotecan. This suggests that taurine might be a valuable ally in enhancing muscle health for patients undergoing cancer treatment, potentially easing symptoms of cancer cachexia, which often arises due to chemotherapy-induced muscle dysfunction.
Read More
User Reviews
USERS' SCORE
Moderately Good
Based on 6 Reviews
7.8
- All Reviews
- Positive Reviews
- Negative Reviews
9
Cancer prevention
This product prevents the onset of cancer and reduces blood glucose levels. It assists in the formation and restoration of the retina within the eyes after injuries and helps to normalise blood pressure. The quality is exceptional, and the dosage is excellent.
Read More
9
Strong antioxidant
This supplement is a potent antioxidant that helps prevent the progression of cancer. It effectively lowers blood glucose levels and is involved in the formation of the retina, aiding recovery in case of injuries.
Read More
9
Excellent cancer prevention
This is a powerful natural antioxidant that combats oxidative processes in the body, alkalising and promoting cardiovascular health. It serves as an excellent preventive measure against cancer!
Read More
4
Prevents liver damage
Taurine appears to enhance heart function and exercise capacity in individuals with CHF. Although its benefits for the body are varied, many studies lack sufficient evidence. While it is evident that taurine acts as a hepatoprotector, its effectiveness against cholesterol accumulation remains uncertain. Early studies indicate that taurine may improve liver function in hepatitis patients and help prevent kidney and liver damage from cancer drugs. Furthermore, taurine usage in liver cirrhosis may reduce blood pressure in the vein supplying the liver. However, it's unclear if this leads to fewer complications. Though numerous studies affirm taurine's benefits for the heart, its impact on diabetics is still not fully understood, suggesting it poses no worry for insulin levels.
Read More
4
Supports detoxification
This supplement has facilitated healthy detoxification and mitigated the risk of toxin-related health issues such as liver damage or cancer. It is particularly beneficial for those exposed to environmental toxins or individuals looking to maintain effective detoxification through dietary supplements.
Read More
Frequently Asked Questions
9
Strong antioxidant
This supplement is a potent antioxidant that helps prevent the progression of cancer. It effectively lowers blood glucose levels and is involved in the formation of the retina, aiding recovery in case of injuries.
9
Excellent cancer prevention
This is a powerful natural antioxidant that combats oxidative processes in the body, alkalising and promoting cardiovascular health. It serves as an excellent preventive measure against cancer!
4
Supports detoxification
This supplement has facilitated healthy detoxification and mitigated the risk of toxin-related health issues such as liver damage or cancer. It is particularly beneficial for those exposed to environmental toxins or individuals looking to maintain effective detoxification through dietary supplements.
4
Prevents cancer development
Taurine is a naturally occurring amino acid in tissues and organs, poised to be a promising treatment for heart and vascular diseases. It protects the cardiovascular system as a potent antioxidant while reducing cancer risk, lowering blood sugar levels, normalising pressure, and preventing atherosclerosis. Additionally, it regulates sodium, potassium, and calcium levels, which are crucial for heart function, while stimulating blood flow and metabolic processes within the heart.
8
We conducted a nested case-control study within a large cohort to understand how levels of taurine, S-adenosylmethionine (SAM), and cysteine in our blood are related to cancer risk, particularly among Chinese adults. Our analysis included 1,391 cancer cases matched with 1,391 controls, providing a robust framework for our findings.
Our results showed that higher levels of taurine in the blood could reduce overall cancer risk, particularly for digestive cancers. This is an exciting discovery as it suggests that taurine might play a protective role. On the contrary, elevated levels of SAM appeared linked to an increased risk of digestive cancers.
Using advanced statistical models, we identified complex interactions among taurine, SAM, and cysteine. Notably, we observed a significant overall negative association between the combination of these amino acids and cancer risk, highlighting the intricate balance these compounds maintain in our metabolism.
Overall, while taurine seems to confer some protective benefits, the specific metabolic relationships and their implications for treatment and prevention strategies need further exploration. Our findings could pave the way for new approaches in cancer prevention.
Our results showed that higher levels of taurine in the blood could reduce overall cancer risk, particularly for digestive cancers. This is an exciting discovery as it suggests that taurine might play a protective role. On the contrary, elevated levels of SAM appeared linked to an increased risk of digestive cancers.
Using advanced statistical models, we identified complex interactions among taurine, SAM, and cysteine. Notably, we observed a significant overall negative association between the combination of these amino acids and cancer risk, highlighting the intricate balance these compounds maintain in our metabolism.
Overall, while taurine seems to confer some protective benefits, the specific metabolic relationships and their implications for treatment and prevention strategies need further exploration. Our findings could pave the way for new approaches in cancer prevention.
8
We conducted a thorough investigation into how taurine, an amino acid, relates to pancreatic ductal adenocarcinoma (PDAC). Our study involved analyzing 54 pairs of tumor and matching normal pancreatic tissues using advanced metabolomics. We found that taurine levels in PDAC tissues were 2.51 times higher compared to normal tissues.
To confirm these findings, we used immunohistochemistry (IHC) on additional samples, which demonstrated a similar increase in taurine. Through bioinformatics, we identified 2-aminoethanethiol dioxygenase (ADO) as a crucial gene influencing taurine metabolism. Further IHC analysis confirmed elevated levels of ADO in PDAC tissues, indicating a potential link between ADO and tumor behavior.
Excitingly, we observed that the ADO-Taurine axis was associated with key clinical outcomes like disease-free survival and cancer recurrence. In experiments where we knocked down ADO, we noticed reduced cancer cell growth, suggesting that taurine metabolism could impact tumor progression. Overall, our findings point to elevated taurine synthesis in PDAC driven by ADO, presenting a promising target for future cancer therapies and a possible prognostic marker for patients.
To confirm these findings, we used immunohistochemistry (IHC) on additional samples, which demonstrated a similar increase in taurine. Through bioinformatics, we identified 2-aminoethanethiol dioxygenase (ADO) as a crucial gene influencing taurine metabolism. Further IHC analysis confirmed elevated levels of ADO in PDAC tissues, indicating a potential link between ADO and tumor behavior.
Excitingly, we observed that the ADO-Taurine axis was associated with key clinical outcomes like disease-free survival and cancer recurrence. In experiments where we knocked down ADO, we noticed reduced cancer cell growth, suggesting that taurine metabolism could impact tumor progression. Overall, our findings point to elevated taurine synthesis in PDAC driven by ADO, presenting a promising target for future cancer therapies and a possible prognostic marker for patients.
8
We conducted an in-depth exploration of taurine's relationship with colorectal cancer (CRC) through a systematic review of existing studies. Our investigation looked at various research studies to gather insights into how taurine levels relate to cancer.
We discovered a significant association between higher taurine levels and the presence of CRC. Specifically, findings indicated that taurine concentrations were elevated in CRC patient samples, particularly in blood. More importantly, taurine showed potential as a diagnostic marker, which could help to distinguish between benign and malignant conditions in patients at differing stages of cancer.
Despite these promising results, it’s worth noting that there was considerable variability in some outcomes across different studies. This highlights the need for further research to clarify taurine’s role, but our analysis suggests an overall trend indicating that increased taurine may be linked to greater odds of developing CRC.
As we continue to look into the connection between taurine and colorectal cancer, it opens up exciting possibilities for future diagnostics and treatments that leverage our understanding of metabolic changes associated with this disease.
We discovered a significant association between higher taurine levels and the presence of CRC. Specifically, findings indicated that taurine concentrations were elevated in CRC patient samples, particularly in blood. More importantly, taurine showed potential as a diagnostic marker, which could help to distinguish between benign and malignant conditions in patients at differing stages of cancer.
Despite these promising results, it’s worth noting that there was considerable variability in some outcomes across different studies. This highlights the need for further research to clarify taurine’s role, but our analysis suggests an overall trend indicating that increased taurine may be linked to greater odds of developing CRC.
As we continue to look into the connection between taurine and colorectal cancer, it opens up exciting possibilities for future diagnostics and treatments that leverage our understanding of metabolic changes associated with this disease.
9.5
We investigated how taurine, an important amino acid, influences the effectiveness of 5-fluorouracil (5-FU), a common chemotherapy drug used to treat colon cancer. In our study, we chemically induced cancer in rats and then treated them with taurine for eight days while observing their colon tissues.
Our findings revealed concerning trends among the different treatment groups. While the control group showed 80% of adenocarcinoma cases, those who received only 5-FU had 70%, and those on taurine alone reported 50%. Remarkably, no adenocarcinoma was found in the group treated with both 5-FU and taurine, suggesting a powerful synergy.
Additionally, we noted that while inflammatory responses and certain gene expressions remained similar across the cancer-induced groups, the expression of a critical protein (APC/β-catenin) increased in the combination group. This suggests that taking taurine might help harness the strengths of 5-FU while lowering potential adverse effects.
Despite some encouraging evidence, we did not observe any significant improvement in inflammation or gene markers typically associated with cancer. However, using taurine appears to normalize some concerning results linked directly to treatment with 5-FU. Overall, the combination shows potential for enhancing treatment outcomes in colon cancer.
Our findings revealed concerning trends among the different treatment groups. While the control group showed 80% of adenocarcinoma cases, those who received only 5-FU had 70%, and those on taurine alone reported 50%. Remarkably, no adenocarcinoma was found in the group treated with both 5-FU and taurine, suggesting a powerful synergy.
Additionally, we noted that while inflammatory responses and certain gene expressions remained similar across the cancer-induced groups, the expression of a critical protein (APC/β-catenin) increased in the combination group. This suggests that taking taurine might help harness the strengths of 5-FU while lowering potential adverse effects.
Despite some encouraging evidence, we did not observe any significant improvement in inflammation or gene markers typically associated with cancer. However, using taurine appears to normalize some concerning results linked directly to treatment with 5-FU. Overall, the combination shows potential for enhancing treatment outcomes in colon cancer.
7
Our investigation focuses on how taurine, an amino acid, influences cancer, particularly in the context of gastric cancer (GC). We learned that taurine has a surprising dual role when it comes to tumor behavior—it helps tumors grow in immunodeficient mice but actually inhibits growth in immunocompetent mice. This finding highlights that the immune system plays a crucial part in determining how effective taurine can be against cancer.
By scrutinizing the mechanisms at play, we found that taurine affects CD8 T cells, which are essential for immune responses against tumors. Rather than directly attacking tumor cells, taurine seems to enhance the ability of these immune cells to act against cancer. We identified the SP1-SLC6A6 axis as an important pathway involved in chemotherapy-induced immune evasion, showing how metabolic changes within the tumor environment can impact treatment outcomes.
While our study reveals significant insights into taurine's effects, we also emphasize the need for a deeper understanding of its potential as a biomarker and treatment target for gastric cancer. It’s a complex relationship, and while taurine could play a valuable role, more research is needed to fully realize its therapeutic possibilities.
By scrutinizing the mechanisms at play, we found that taurine affects CD8 T cells, which are essential for immune responses against tumors. Rather than directly attacking tumor cells, taurine seems to enhance the ability of these immune cells to act against cancer. We identified the SP1-SLC6A6 axis as an important pathway involved in chemotherapy-induced immune evasion, showing how metabolic changes within the tumor environment can impact treatment outcomes.
While our study reveals significant insights into taurine's effects, we also emphasize the need for a deeper understanding of its potential as a biomarker and treatment target for gastric cancer. It’s a complex relationship, and while taurine could play a valuable role, more research is needed to fully realize its therapeutic possibilities.
References
- Liu C, Liu T, Wei Y, Shi J, Deng L, et al. Interplay of serum taurine, S-adenosylmethionine, and cysteine levels in cancer risk: a prospective study. Front Pharmacol. 2024;15:1507125. doi:10.3389/fphar.2024.1507125
- Nam H, Lee W, Lee YJ, Kim JM, Jung KH, et al. Taurine Synthesis by 2-Aminoethanethiol Dioxygenase as a Vulnerable Metabolic Alteration in Pancreatic Cancer. Biomol Ther (Seoul). 2025;33:143. doi:10.4062/biomolther.2024.086
- Sinha A, Griffith L, Acharjee A. Systematic Review and Meta-Analysis: Taurine and Its Association With Colorectal Carcinoma. Cancer Med. 2024;13:e70424. doi:10.1002/cam4.70424
- Chen CI, Chen YC, Kao YK, Chen CH, Yang PW, et al. Taurine Protects Irinotecan-induced Muscle Dysfunction by Modulating Oxidative Stress and Endoplasmic Reticulum Stress in Human Skeletal Muscle Cells. Anticancer Res. 2024;44:5371. doi:10.21873/anticanres.17364
- Das J, Singh TA, Lalruatsangi R, Sil PC. Synthesis of nanohybrid consisting of taurine derived carbon dots and nanoceria for anticancer applications. Toxicol Rep. 2024;13:101794. doi:10.1016/j.toxrep.2024.101794
- Lawore DC, Jena S, Berard AR, Birse K, Lamont A, et al. Computational Microbiome Pharmacology Analysis Elucidates the Anti-Cancer Potential of Vaginal Microbes and Metabolites. bioRxiv. 2024. doi:10.1101/2024.10.10.616351
- Jornada DH, Boreski D, Chiba DE, Ligeiro D, Luz MAM, et al. Synergistic Enhancement of 5-Fluorouracil Chemotherapeutic Efficacy by Taurine in Colon Cancer Rat Model. Nutrients. 2024;16. doi:10.3390/nu16183047
- Shentu J, Su X, Yu Y, Duan S. Unveiling the role of taurine and SLC6A6 in tumor immune evasion: Implications for gastric cancer therapy. Int J Biochem Cell Biol. 2024;176:106661. doi:10.1016/j.biocel.2024.106661
- Liang TL, Pan HD, Yan PY, Mi JN, Liu XC, et al. Serum taurine affects lung cancer progression by regulating tumor immune escape mediated by the immune microenvironment. J Adv Res. 2024. doi:10.1016/j.jare.2024.09.005
