Thomas H. Temple scite author profile

Thomas H. Temple

6Publications

90Citation Statements Received

89Citation Statements Given

How they've been cited

118

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Affiliations

University of Miami Health System, University of Pittsburgh, University of Miami

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Metanephric development in serum-free organ culture

et al. 1982

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A new mouse metanephric organ culture system has been developed to study mammalian renal development. The system permits in vitro organotypic differentiation in a serum-free, hormone supplemented medium consisting of Dulbecco's minimal essential medium (MEM) and Ham's F12 medium supplemented with insulin, 5 microgram/ml; PGE1, 25 ng/ml; T3, 3.2 pg/ml; hydrocortisone, 5 microgram/ml; and transferrin, 5 microgram/ml. In this system, metanephric development continues morphologically beyond the S-shaped tubule stage. A well differentiated proximal tubule forms with a well defined brush border, specialized intercellular connections, and an apical endocytic network. In addition, a unique devascularized glomerulus, with highly differentiated podocytes surrounding areas of basement membrane, forms entirely from epithelial elements. The present organ culture model goes beyond the limitations of previously described systems in that it does not require separation of nephrogenic blastema from ureteric bud, nor require animal serum or nonspecific tissue extracts for metanephric development. The model is thus suited for morphological, biochemical, and endocrinological study of normal and abnormal renal organogenesis.

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Cytostatic Effect of the Hypothalamic Cytokine PRP-1 is Mediated by mTOR and cMyc Inhibition in High Grade Chondrosarcoma

2011

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This study aimed to further elucidate the molecular mechanisms of antiproliferative action of proline rich polypeptide 1 (PRP-1) cytokine, produced by neurosecretory cells of the hypothalamus to be considered as alternative adjuvant therapy for metastatic chondrosarcoma, which does not respond to chemotherapy or radiation and currently without any effective treatment. Rapid cell proliferation assay of human primary cultures from high grade chondrosarcoma patients biopsies and human chondrosarcoma JJ012 cell line indicated 50 and 80% inhibition in PRP-1 treated samples correspondingly. Videomicroscopy detected that despite the treatment there are still dividing cells, meaning that cells are not in the state of dormancy, rather PRP-1 repressed the cell cycle progression, exhibited cytostatic effect. The mammalian target of rapamycin (mTOR) is an intracellular serine/threonine protein kinase that has a crucial role in a nutrient sensitive signaling pathway that regulates cell growth. Experiments with mTOR pathway after PRP-1 (10 μg/ml) treatment indicated statistically significant 30% inhibition of mTOR activity and its 56% inhibition in immunoprecipitates with PRP-1 concentrations effective for cell proliferation inhibition. Treatment with PRP- caused inhibition of mTOR and downstream target cMyc oncogenic transcription factor sufficient to trigger the cytostatic effect in high grade, but not in low grade chondrosarcomas. The fact that lower concentrations than 10 μg/ml peptide with cytostatic effect did not inhibit mTOR, but inhibited cMyc prompted us to assume that PRP-1 binds to two different receptors facilitating the antiproliferative effect.

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Cytostatic effect of novel mTOR inhibitor, PRP-1 (galarmin) in MDA 231 (ER−) breast carcinoma cell line. PRP-1 inhibits mesenchymal tumors

2011

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Activation of the PI3K-Akt-mTOR pathway is implicated both in the establishment of tumors and as well as a target for therapy in many types of solid malignancy, its blockade represents an opportunity to improve outcomes in patients with tumors that are associated with poor prognosis. Our experimental data indicates that proline-rich polypeptide-1 (PRP-1, galarmin) is immunomodulator cytokine, produced by hypothalamic neurosecretory cells and exerts its antiproliferative effect on the tumor cells of mesenchymal origin via inhibiting mTOR kinase activity and repressing cell cycle progression. The goal of these investigations was to elucidate the antiproliferative action of PRP-1 on the breast carcinoma cell line MDA 231 (ER-) and to compare PRP-1 action previously reported on other mesenchymal tumors. These experiments confirmed maximum inhibition of cell growth at 0.5 and 1 μg/ml PRP-1 (71% and 63%, respectively) and inhibition at 10 μg/ml of 44%. There was no inhibitory effect observed on luminal T47-D (ER+) cells. Videomicroscopy results demonstrated dividing cells in the cytokine-treated MDA 231 (ER-), suggesting that the cells were not in the state of dormancy. The flow cytometry experiments confirmed that PRP-1-treated cells were accumulated in S phase. No apoptosis, caspase activation, or senescence was detected after treatment with this cytokine. Experiments with mTOR with PRP-1 (10 μg/ml) indicated statistically significant 40% inhibition of mTOR kinase activity in immunoprecipitates of the MDA 231 (ER-) cell line. PRP-1 is a novel mTOR inhibitor with strong antiproliferative action in mesenchymal tumors mostly resistant to radiation and chemotherapy.

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Production and distribution of entactin and GP-2 in M1536-B3 cells

Bender¹,

Carlin²,

Jaffe³

et al. 1982

Experimental Cell Research

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392: Osteopontin Expression in Metastatic Renal Cell Carcinoma

Carmack¹,

Sáenz²,

Jordà³

et al. 2006

Journal of Urology

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Inhibition of CDK7-Dependent Transcriptional Addiction is a Potential Therapeutic Target in Synovial Sarcoma

Li¹,

Dean²,

Yuan

et al. 2022

SSRN Journal

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Thomas H. Temple

Metanephric development in serum-free organ culture

Cytostatic Effect of the Hypothalamic Cytokine PRP-1 is Mediated by mTOR and cMyc Inhibition in High Grade Chondrosarcoma

Cytostatic effect of novel mTOR inhibitor, PRP-1 (galarmin) in MDA 231 (ER−) breast carcinoma cell line. PRP-1 inhibits mesenchymal tumors

Production and distribution of entactin and GP-2 in M1536-B3 cells

392: Osteopontin Expression in Metastatic Renal Cell Carcinoma

Inhibition of CDK7-Dependent Transcriptional Addiction is a Potential Therapeutic Target in Synovial Sarcoma

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