Your search keyword '"Puviindran, Vijitha"' showing total 5 results

1. Erythromyeloid progenitors give rise to a population of osteoclasts that contribute to bone homeostasis and repair

Author

Yahara, Yasuhito, Barrientos, Tomasa, Tang, Yuning J., Puviindran, Vijitha, Nadesan, Puviindran, Zhang, Hongyuan, Gibson, Jason R., Gregory, Simon G., Diao, Yarui, Xiang, Yu, Qadri, Yawar J., Souma, Tomokazu, Shinohara, Mari L., and Alman, Benjamin A.

Abstract

Osteoclasts are multinucleated cells of the monocyte/macrophage lineage that degrade bone. Here, we used lineage tracing studies—labelling cells expressing Cx3cr1, Csf1ror Flt3—to identify the precursors of osteoclasts in mice. We identified an erythromyeloid progenitor (EMP)-derived osteoclast precursor population. Yolk-sac macrophages of EMP origin produced neonatal osteoclasts that can create a space for postnatal bone marrow haematopoiesis. Furthermore, EMPs gave rise to long-lasting osteoclast precursors that contributed to postnatal bone remodelling in both physiological and pathological settings. Our single-cell RNA-sequencing data showed that EMP-derived osteoclast precursors arose independently of the haematopoietic stem cell (HSC) lineage and the data from fate tracking of EMP and HSC lineages indicated the possibility of cell–cell fusion between these two lineages. Cx3cr1+yolk-sac macrophage descendants resided in the adult spleen, and parabiosis experiments showed that these cells migrated through the bloodstream to the remodelled bone after injury.

Published

2020

2. Radiation-induced bone loss in mice is ameliorated by inhibition of HIF-2α in skeletal progenitor cells

Author

Guo, Wendi, Hoque, Jiaul, Garcia Garcia, Carolina J., Spiller, Kassandra V., Leinroth, Abigail P., Puviindran, Vijitha, Potnis, Cahil K., Gunn, Kiana A., Newman, Hunter, Ishikawa, Koji, Fujimoto, Tara N., Neill, Denae W., Delahoussaye, Abagail M., Williams, Nerissa T., Kirsch, David G., Hilton, Matthew J., Varghese, Shyni, Taniguchi, Cullen M., and Wu, Colleen

Abstract

Radiotherapy remains a common treatment modality for cancer despite skeletal complications. However, there are currently no effective treatments for radiation-induced bone loss, and the consequences of radiotherapy on skeletal progenitor cell (SPC) survival and function remain unclear. After radiation, leptin receptor–expressing cells, which include a population of SPCs, become localized to hypoxic regions of the bone and stabilize the transcription factor hypoxia-inducible factor-2α (HIF-2α), thus suggesting a role for HIF-2α in the skeletal response to radiation. Here, we conditionally knocked out HIF-2α in leptin receptor–expressing cells and their descendants in mice. Radiation therapy in littermate control mice reduced bone mass; however, HIF-2α conditional knockout mice maintained bone mass comparable to nonirradiated control animals. HIF-2α negatively regulated the number of SPCs, bone formation, and bone mineralization. To test whether blocking HIF-2α pharmacologically could reduce bone loss during radiation, we administered a selective HIF-2α inhibitor called PT2399 (a structural analog of which was recently FDA-approved) to wild-type mice before radiation exposure. Pharmacological inhibition of HIF-2α was sufficient to prevent radiation-induced bone loss in a single-limb irradiation mouse model. Given that ~90% of patients who receive a HIF-2α inhibitor develop anemia because of off-target effects, we developed a bone-targeting nanocarrier formulation to deliver the HIF-2α inhibitor to mouse bone, to increase on-target efficacy and reduce off-target toxicities. Nanocarrier-loaded PT2399 prevented radiation-induced bone loss in mice while reducing drug accumulation in the kidney. Targeted inhibition of HIF-2α may represent a therapeutic approach for protecting bone during radiation therapy.

Published

2023

3. Tracing Tumor Evolution in Sarcoma Reveals Clonal Origin of Advanced Metastasis

Author

Tang, Yuning J., Huang, Jianguo, Tsushima, Hidetoshi, Ban, Ga I., Zhang, Hongyuan, Oristian, Kristianne M., Puviindran, Vijitha, Williams, Nerissa, Ding, Xiruo, Ou, Jianhong, Jung, Sin-Ho, Lee, Chang-Lung, Jiao, Yiqun, Chen, Benny J., Kirsch, David G., and Alman, Benjamin A.

Abstract

Cellular heterogeneity is frequently observed in cancer, but the biological significance of heterogeneous tumor clones is not well defined. Using multicolor reporters and CRISPR-Cas9 barcoding, we trace clonal dynamics in a mouse model of sarcoma. We show that primary tumor growth is associated with a reduction in clonal heterogeneity. Local recurrence of tumors following surgery or radiation therapy is driven by multiple clones. In contrast, advanced metastasis to the lungs is driven by clonal selection of a single metastatic clone (MC). Using RNA sequencing (RNA-seq) and in vivoassays, we identify candidate suppressors of metastasis, namely, Rasd1, Reck, and Aldh1a2.These genes are downregulated in MCs of the primary tumors prior to the formation of metastases. Overexpression of these suppressors of metastasis impair the ability of sarcoma cells to colonize the lungs. Overall, this study reveals clonal dynamics during each step of tumor progression, from initiation to growth, recurrence, and distant metastasis.

Published

2019

4. The PPFIA1-PP2A protein complex promotes trafficking of Kif7 to the ciliary tip and Hedgehog signaling

Author

Liu, Yulu C., Couzens, Amber L., Deshwar, Ashish R., B. McBroom-Cerajewski, Linda D., Zhang, Xiaoyun, Puviindran, Vijitha, Scott, Ian C., Gingras, Anne-Claude, Hui, Chi-chung, and Angers, Stephane

Abstract

Dephosphorylation of the kinesin protein Kif7 stimulates Hedgehog signaling.

Published

2014

5. The Kinesin Protein Kif7 Is a Critical Regulator of Gli Transcription Factors in Mammalian Hedgehog Signaling

Author

Cheung, Helen Oi-Lam, Zhang, Xiaoyun, Ribeiro, Ana, Mo, Rong, Makino, Shigeru, Puviindran, Vijitha, Law, Kelvin K. L., Briscoe, James, and Hui, Chi-chung

Abstract

Kif7 may be the functional equivalent of the Drosophilakinesin-like protein Costal2.

Published

2009