Lakshmishri Lahiry scite author profile

Cancer patients often exhibit loss of proper cell-mediated immunity and reduced effector T-cell population in the circulation. Thymus is a major site of T-cell maturation, and tumors induce thymic atrophy to evade cellular immune response. Here, we report severe thymic hypocellularity along with decreased thymic integrity in tumor bearer. In an effort to delineate the mechanisms behind such thymic atrophy, we observed that tumor-induced oxidative stress played a critical role, as it perturbed nuclear factor-KB (NF-KB) activity. Tumor-induced oxidative stress increased cytosolic IKBA retention and inhibited NF-KB nuclear translocation in thymic T cells. These NF-KB-perturbed cells became vulnerable to tumor-secreted tumor necrosis factor (TNF)-A (TNF-A)-mediated apoptosis through the activation of TNF receptorassociated protein death domain-associated Fas-associated protein death domain and caspase-8. Interestingly, TNF-Adepleted tumor supernatants, either by antibody neutralization or by TNF-A-small interfering RNA transfection of tumor cells, were unable to kill T cell effectively. When T cells were overexpressed with NF-KB, the cells became resistant to tumor-induced apoptosis. In contrast, when degradationdefective IKBA (IKBA super-repressor) was introduced into T cells, the cells became more vulnerable, indicating that inhibition of NF-KB is the reason behind such tumor/TNF-Amediated apoptosis. Curcumin could prevent tumor-induced thymic atrophy by restoring the activity of NF-KB. Further investigations suggest that neutralization of tumor-induced oxidative stress and restoration of NF-KB activity along with the reeducation of the TNF-A signaling pathway can be the mechanism behind curcumin-mediated thymic protection. Thus, our results suggest that unlike many other anticancer agents, curcumin is not only devoid of immunosuppressive effects but also acts as immunorestorer in tumor-bearing host.

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Contribution of p53-mediated Bax transactivation in theaflavin-induced mammary epithelial carcinoma cell apoptosis

Lahiry

Saha

Chakraborty

et al. 2008

Apoptosis

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Theaflavins, the bioactive flavonoids of black tea, have been demonstrated to inhibit proliferation and induce apoptosis in a variety of cancer cells. However, the contribution of p53 in mammary epithelial carcinoma cell apoptosis by theaflavins remains unclear. It has been reported that p53 triggers apoptosis by inducing mitochondrial outer membrane permeabilization through transcription-dependent and -independent mechanisms. Using wild-type and mutant p53-expressing as well as p53-null cells we found a strong correlation between p53 status and theaflavin-induced breast cancer cell apoptosis. Apoptogenic effect was more pronounced in functional p53-expressing cells in which theaflavins raised p53 protein levels that harmonized with Bax up-regulation and migration to mitochondria. However, in the same cells, when p53-mediated transactivation was inhibited by pifithrin-alpha, theaflavins not only failed to increase transcription but also to induce apoptosis although p53 up-regulation was not altered. In contrast, Bax over-expression restored back theaflavin-induced apoptosis in pifithrin-alpha-inhibited/dominant-negative p53-expressing cells. Inhibition of Bax by RNA-interference also reduced theaflavin-induced apoptosis. These results not only indicated the requirement of p53-mediated transcriptional activation of Bax but also its role as down-stream effecter in theaflavin-induced apoptosis. Bax up-regulation resulted in mitochondrial transmembrane potential loss and cytochrome c release followed by activation of caspase cascade. In contrast, mitochondrial translocation of p53 and its interaction with Bcl-2 family proteins or activation of caspase-8 could not be traced thereby excluding the involvement of p53-mediated transcription-independent pathways. Together these findings suggest that in breast cancer cells, p53 promotes theaflavin-induced apoptosis in a transcription-dependent manner through mitochondrial death cascade.

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Theaflavins target Fas/caspase-8 and Akt/pBad pathways to induce apoptosis in p53-mutated human breast cancer cells

et al. 2009

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The most common alterations found in breast cancer are inactivation or mutation of tumor suppressor gene p53. The present study revealed that theaflavins induced p53-mutated human breast cancer cell apoptosis. Pharmacological inhibition of caspase-8 or expression of dominant-negative (Dn)-caspase-8/Fas-associated death domain (FADD) partially inhibited apoptosis, whereas caspase-9 inhibitor completely blocked the killing indicating involvement of parallel pathways that converged to mitochondria. Further studies demonstrated theaflavin-induced Fas upregulation through the activation of c-jun N-terminal kinase, Fas-FADD interaction in a Fas ligand-independent manner, caspase-8 activation and t-Bid formation. A search for the parallel pathway revealed theaflavin-induced inhibition of survival pathway, mediated by Akt deactivation and Bcl-xL/Bcl-2-associated death promoter dephosphorylation. These well-defined routes of growth control converged to a common process of mitochondrial transmembrane potential loss, cytochrome c release and activation of the executioner caspase-9 and -3. Overexpression of either constitutively active myristylated-Akt (Myr-Akt) or Dn-caspase-8 partially blocked theaflavin-induced mitochondrial permeability transition and apoptosis of p53-mutated cells, whereas cotransfection of Myr-Akt and Dn-caspase-8 completely abolished theaflavin effect thereby negating the possibility of existence of third pathways. These results and other biochemical correlates established the concept that two distinct signaling pathways were regulated by theaflavins to induce mitochondrial death cascade, eventually culminating to apoptosis of p53-mutated human breast cancer cells that are strongly resistant to conventional therapies.

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Theaflavins retard human breast cancer cell migration by inhibiting NF‐κB via p53‐ROS cross‐talk

et al. 2009

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Edited by Quan Chen Keywords:Breast cancer Migration NF-jB p53 Reactive oxygen species Theaflavins a b s t r a c tThe present study demonstrates that theaflavins exploit p53 to impede metastasis in human breast cancer cells. Our data suggest that p53-dependent reactive oxygen species (ROS) induce p53-phosphorylation via p38MAPK in a feedback loop to inhibit IjBa-phosphorylation and NF-jB/p65 nuclear translocation, thereby down-regulating the metastatic proteins metalloproteinase (MMP)-2 and MMP-9. When wild-type p53-expressing MCF-7 cells are transfected with p53 short-interfering RNA, or treated with a pharmacological inhibitor of ROS, theaflavins fail to inhibit NF-jB-mediated cell migration. On the other hand, NF-jB over-expression bestows MCF-7 cells with resistance to the anti-migratory effect of theaflavins. These results indicate that inhibition of NF-jB via p53-ROS crosstalk is a pre-requisite for theaflavins to accomplish the anti-migratory effect in breast cancer cells. Structured summary:MINT-7295816: p53 (uniprotkb:P04637) physically interacts (MI:0915) with IKK beta (uniprotkb:O14920) by anti bait coimmunoprecipitation (MI:0006)

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Black tea protects immunocytes from tumor-induced apoptosis by changing Bcl-2/Bax ratio

et al. 2004

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Black tea induces tumor cell apoptosis by Bax translocation, loss in mitochondrial transmembrane potential, cytochrome c release and caspase activation

Bhattacharyya¹,

Lahiry²,

Mandal³

et al. 2005

Intl Journal of Cancer

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Recently the anti-cancer role of black tea has gained immense importance. Nevertheless, the signaling pathways underlying black tea-induced tumor cell death are still unknown. Previously we reported that black tea induces Ehrlich's ascites carcinoma (EAC) cell apoptosis by changing the balance between pro-and anti-apoptotic proteins. It is now well accepted that many cell death pathways converge at the mitochondria to decrease mitochondrial transmembrane potential (MTP) thereby releasing apoptogenic proteins and resulting in the activation of effecter caspases responsible for the biochemical and morphological alterations associated with apoptosis. The role of pro-apoptotic protein, Bax, in initiating mitochondrial death cascade has also been established. Here we demonstrate that in culture black tea extract induces EAC apoptosis in a dose-dependent manner -with IC 50 at 100 lg/ml. At this dose, intracellular Bax level increases in EAC followed by its translocation from cytosol to mitochondria resulting in loss in MTP. A search for the downstream pathway further reveals that black tea induces mitochondrial cytochrome c release and activates caspases 9 and 3 by 2 pathways, a) independent of and b) dependent on MTP loss. Interestingly, Black tea-induced death signal might probably be amplified through mitochondrial membrane depolarization via a feedback activation loop from caspase 3. All these findings indicate that black tea initiates mitochondrial death cascade in EAC cells and thereby results in EAC apoptosis. ' 2005 Wiley-Liss, Inc.

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Increased Cytoplasmic Localization of p27kip1 and Its Modulation of RhoA Activity during Progression of Chronic Myeloid Leukemia

et al. 2013

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The role of p27kip1 in Chronic Myeloid Leukemia (CML) has been well studied in relation to its function as a cell cycle inhibitor. However, its cytoplasmic function especially in CML remains to be seen. We studied the localization of p27kip1 and its function during the progression of CML from chronic to blast phase. Our investigations revealed an increased localization of p27kip1 in the cytoplasm of CD34+ cells in the blast phase compared to chronic phase. Cytoplasmic p27kip1 was found to modulate RhoA activity in CD34+ stem and progenitor cells. Further, RhoA activity was shown to be dependent on cytoplasmic p27kip1 which in turn was dependent on p210Bcr-Abl kinase activity. Interestingly, RhoA activity was observed to affect cell survival in the presence of imatinib through the SAPK/JNK pathway. Accordingly, inhibition of SAPK/JNK pathway using SP600125 increased apoptosis of K562 cells in presence of imatinib. Our results, for the first time, thus reveal a crucial link between cytoplasmic p27kip1, RhoA activity and SAPK/JNK signalling. To this effect we observed a correlation between increased cytoplasmic p27kip1, increased RhoA protein levels, decreased RhoA-GTP levels and increased SAPK/JNK phosphorylation in blast phase CD34+ cells compared to chronic phase CD34+ cells.

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Tumor-induced thymic involution via inhibition of IL-7Rα and its JAK-STAT signaling pathway: Protection by black tea

Mandal

Lahiry

Bhattacharyya

et al. 2006

International Immunopharmacology

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