Your search keyword '"Valli Annamalai"' showing total 6 results

1. Two distinct light-induced reactions are needed to promote germination in spores of Ceratopteris richardii

Author

Ashley E. Cannon, Tanya Sabharwal, Mari L. Salmi, Ganesh Kumar Chittari, Valli Annamalai, Lindsey Leggett, Hope Morris, Cameron Slife, Greg Clark, and Stanley J. Roux

Subjects

Ceratopteris, light signaling, phytochrome, chlorophyll, ATP, fern spore, Plant culture, SB1-1110

Abstract

Germination of Ceratopteris richardii spores is initiated by light and terminates 3-4 days later with the emergence of a rhizoid. Early studies documented that the photoreceptor for initiating this response is phytochrome. However, completion of germination requires additional light input. If no further light stimulus is given after phytochrome photoactivation, the spores do not germinate. Here we show that a crucial second light reaction is required, and its function is to activate and sustain photosynthesis. Even in the presence of light, blocking photosynthesis with DCMU after phytochrome photoactivation blocks germination. In addition, RT-PCR showed that transcripts for different phytochromes are expressed in spores in darkness, and the photoactivation of these phytochromes results in the increased transcription of messages encoding chlorophyll a/b binding proteins. The lack of chlorophyll-binding protein transcripts in unirradiated spores and their slow accumulation makes it unlikely that photosynthesis is required for the initial light reaction. This conclusion is supported by the observation that the transient presence of DCMU, only during the initial light reaction, had no effect on germination. Additionally, the [ATP] in Ceratopteris richardii spores increased coincidentally with the length of light treatment during germination. Overall, these results support the conclusion that two distinct light reactions are required for the germination of Ceratopteris richardii spores.

Published

2023

2. Ectopic JAK–STAT activation enables the transition to a stem-like and multilineage state conferring AR-targeted therapy resistance

Author

Su Deng, Choushi Wang, Yunguan Wang, Yaru Xu, Xiaoling Li, Nickolas A. Johnson, Atreyi Mukherji, U-Ging Lo, Lingfan Xu, Julisa Gonzalez, Lauren A. Metang, Jianfeng Ye, Carla Rodriguez Tirado, Kathia Rodarte, Yinglu Zhou, Zhiqun Xie, Carlos Arana, Valli Annamalai, Xihui Liu, Donald J. Vander Griend, Douglas Strand, Jer-Tsong Hsieh, Bo Li, Ganesh Raj, Tao Wang, and Ping Mu

Subjects

Male, STAT Transcription Factors, Cancer Research, Pharmaceutical Preparations, Oncology, Receptors, Androgen, Humans, Prostatic Neoplasms, Janus Kinases

Abstract

Emerging evidence indicates that various cancers can gain resistance to targeted therapies by acquiring lineage plasticity. Although various genomic and transcriptomic aberrations correlate with lineage plasticity, the molecular mechanisms enabling the acquisition of lineage plasticity have not been fully elucidated. We reveal that Janus kinase (JAK)–signal transducer and activator of transcription (STAT) signaling is a crucial executor in promoting lineage plasticity-driven androgen receptor (AR)-targeted therapy resistance in prostate cancer. Importantly, ectopic JAK–STAT activation is specifically required for the resistance of stem-like subclones expressing multilineage transcriptional programs but not subclones exclusively expressing the neuroendocrine-like lineage program. Both genetic and pharmaceutical inhibition of JAK–STAT signaling resensitizes resistant tumors to AR-targeted therapy. Together, these results suggest that JAK–STAT are compelling therapeutic targets for overcoming lineage plasticity-driven AR-targeted therapy resistance.

Published

2022

3. Supplementary Data from MYC Levels Regulate Metastatic Heterogeneity in Pancreatic Adenocarcinoma

Author

Ben Z. Stanger, Faiyaz Notta, Christine A. Iacobuzio-Donahue, Scott W. Lowe, Rolf A. Brekken, Maja H. Oktay, John C. McAuliffe, Erica L. Carpenter, Jonathan Bermeo, Ian D. Millstein, Ian W. Folkert, Tuong-Vi C. Ngo, Michael J. LaRiviere, David Balli, Jinyang Li, Taiji Yamazoe, Maximilian D. Wengyn, Jason R. Pitarresi, Christian A. Adkisson, Pichai Raman, Saurav Bhattacharya, Valli Annamalai, Angad Kumar, Feng Wu, Taku Higashihara, Asal Saeid, Amy Zhang, Komal S. Rathi, Timour Baslan, Robert J. Norgard, and Ravikanth Maddipati

Abstract

Supplementary Data from MYC Levels Regulate Metastatic Heterogeneity in Pancreatic Adenocarcinoma

Published

2023

4. Data from MYC Levels Regulate Metastatic Heterogeneity in Pancreatic Adenocarcinoma

Author

Ben Z. Stanger, Faiyaz Notta, Christine A. Iacobuzio-Donahue, Scott W. Lowe, Rolf A. Brekken, Maja H. Oktay, John C. McAuliffe, Erica L. Carpenter, Jonathan Bermeo, Ian D. Millstein, Ian W. Folkert, Tuong-Vi C. Ngo, Michael J. LaRiviere, David Balli, Jinyang Li, Taiji Yamazoe, Maximilian D. Wengyn, Jason R. Pitarresi, Christian A. Adkisson, Pichai Raman, Saurav Bhattacharya, Valli Annamalai, Angad Kumar, Feng Wu, Taku Higashihara, Asal Saeid, Amy Zhang, Komal S. Rathi, Timour Baslan, Robert J. Norgard, and Ravikanth Maddipati

Abstract

The degree of metastatic disease varies widely among patients with cancer and affects clinical outcomes. However, the biological and functional differences that drive the extent of metastasis are poorly understood. We analyzed primary tumors and paired metastases using a multifluorescent lineage-labeled mouse model of pancreatic ductal adenocarcinoma (PDAC)—a tumor type in which most patients present with metastases. Genomic and transcriptomic analysis revealed an association between metastatic burden and gene amplification or transcriptional upregulation of MYC and its downstream targets. Functional experiments showed that MYC promotes metastasis by recruiting tumor-associated macrophages, leading to greater bloodstream intravasation. Consistent with these findings, metastatic progression in human PDAC was associated with activation of MYC signaling pathways and enrichment for MYC amplifications specifically in metastatic patients. Collectively, these results implicate MYC activity as a major determinant of metastatic burden in advanced PDAC.Significance:Here, we investigate metastatic variation seen clinically in patients with PDAC and murine PDAC tumors and identify MYC as a major driver of this heterogeneity.This article is highlighted in the In This Issue feature, p. 275

Published

2023

5. Supplementary Figure from MYC Levels Regulate Metastatic Heterogeneity in Pancreatic Adenocarcinoma

Author

Ben Z. Stanger, Faiyaz Notta, Christine A. Iacobuzio-Donahue, Scott W. Lowe, Rolf A. Brekken, Maja H. Oktay, John C. McAuliffe, Erica L. Carpenter, Jonathan Bermeo, Ian D. Millstein, Ian W. Folkert, Tuong-Vi C. Ngo, Michael J. LaRiviere, David Balli, Jinyang Li, Taiji Yamazoe, Maximilian D. Wengyn, Jason R. Pitarresi, Christian A. Adkisson, Pichai Raman, Saurav Bhattacharya, Valli Annamalai, Angad Kumar, Feng Wu, Taku Higashihara, Asal Saeid, Amy Zhang, Komal S. Rathi, Timour Baslan, Robert J. Norgard, and Ravikanth Maddipati

Abstract

Supplementary Figure from MYC Levels Regulate Metastatic Heterogeneity in Pancreatic Adenocarcinoma

Published

2023

6. Author Correction: Ectopic JAK–STAT activation enables the transition to a stem-like and multilineage state conferring AR-targeted therapy resistance

Author

Su Deng, Choushi Wang, Yunguan Wang, Yaru Xu, Xiaoling Li, Nickolas A. Johnson, Atreyi Mukherji, U-Ging Lo, Lingfan Xu, Julisa Gonzalez, Lauren A. Metang, Jianfeng Ye, Carla Rodriguez Tirado, Kathia Rodarte, Yinglu Zhou, Zhiqun Xie, Carlos Arana, Valli Annamalai, Xihui Liu, Donald J. Vander Griend, Douglas Strand, Jer-Tsong Hsieh, Bo Li, Ganesh Raj, Tao Wang, and Ping Mu

Subjects

Cancer Research, Oncology

Published

2022