Calden B. Collins scite author profile

Calden B. Collins

3Publications

30Citation Statements Received

66Citation Statements Given

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Wesleyan University

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Spore Germination and Carbon Metabolism in Fusarium solani. III. Carbohydrate Respiration in Relation to Germination

Cochrane¹,

Berry²,

Simon³

et al. 1963

Plant Physiol.

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Purpose: The purpose of this study is to evaluate the role of the cell survival gene clusterin in radiation-induced cell death in human LNCaP and PC-3 prostate cancer models.Experimental Design: Radiation sensitivities were compared in parental and clusterin-overexpressing LNCaP cells and in PC-3 cells and tumors treated with antisense or mismatch clusterin oligonucleotides.Results: Clusterin-overexpressing LNCaP cells were less sensitive to irradiation with significantly lower cell death rates (23% after 8 Gy) compared with parental LNCaP cells (50% after 8 Gy) 3 days after irradiation. Clusterin expression in PC-3 cells after radiation was found to be up-regulated in a dose-dependent manner in vitro by 70% up to 12 Gy and in vivo by 84% up to 30 Gy. Inhibition of clusterin expression in PC-3 cells using antisense oligonucleotides (ASOs) occurred in a sequence-and dose-dependent manner and significantly enhanced radiation-induced apoptosis and decreased PC-3 cell growth rate and plating efficiency. Compared with mismatch control oligonucleotide treatment, clusterin ASO treatment enhanced radiation therapy and significantly reduced PC-3 tumor volume in vivo by 50% at 9 weeks. In addition, TUNEL staining revealed increased number of apoptotic cells in clusterin ASOtreated and irradiated PC-3 tumors, compared with treatment with mismatch control oligonucleotides plus radiation. Conclusions:These findings support the hypothesis that clusterin acts as a cell survival protein that mediates radioresistance through the inhibition of apoptosis. In vivo results further suggest that inactivation of clusterin using ASO technology might offer a novel strategy to improve results of radiation therapy for prostate cancer patients.

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Spore Germination and Carbon Metabolism in Fusarium Solani. Ii. Endogenous Respiration in Relation to Germination

Cochrane

Collins

et al. 1963

American J of Botany

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Spore gcrmination and carbon netabolism in Fusarium solani. II. Endogenous respiration in relation to germination. Amer. Jour. Bot. 50 (8): 806-814. Illus. 1963.-Endogenous oxygen uptake by ungerminated macroconidia of Fusarium solani f. phaseoli is more than doubled by exogenous ammonium ion and is increased about 7-fold by germination. The respiratory quotient is halved by the provision of ammonia, which has essentially no effect on the endogenous formation of carbon dioxide. Stimulation by azide and 2, 4-dinitrophenol suggests that the supply of phosphate acceptors regulates the rate of endogenous respiration. Mcrcurials poison the endogenous respiration, cyanide accelerates it, and iodoacetatc, arsenite, fluoride, and chelating agents have little effect. Respiration is little affected by changes in pH, external phosphate, oxygen concentration, and spore density, within the limits tested. Spore lipid concentration is increased by cultivation in a high-glucose medium, but this variation in lipid content of spores does not affect the endogenous Qo" nor does a high lipid content abolish the requirement for exogenous carbon for germination. Lipid utilization during endogenous respiration accounts for 37% of the loss in dry weight; lipid is also utilized during germination, but such utilization amounts to only about 5% of the carbon requirement. Neither mannitol nor nitrogenous compounds are significant substrates of endogenous respiration. The oxidation of the exogenous substrates tested does not measurably affect the concomitant rate of endogenous respiration. It is proposed that endogenous respiration can contribute to the synthetic processes of spore germination, although quantitatively insufficient to support germination without exogenous carbon. It is also questioned whether the respiratory quotient is an adequate index of the substrate of endogenous respiration. 1

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Spore Germination and Carbon Metabolism in Fusarium solani. II. Endogenous Respiration in Relation to Germination

Cochrane¹,

Cochrane²,

Collins³

et al. 1963

American Journal of Botany

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Cochrane, V. W., Jean C. Cochrane, C. b. Collins, and F. G. Serafin. (Wesleyan U., Middletown, Conn.) Spore germination and carbon metabolism in Fusarium solani. II. Endogenous respiration in relation to germination. Amer. Jour. Bot. 50(8): 806–814. Illus. 1963.—Endogenous oxygen uptake by ungerminated macroconidia of Fusarium solani f. phaseoli is more than doubled by exogenous ammonium ion and is increased about 7‐fold by germination. The respiratory quotient is halved by the provision of ammonia, which has essentially no effect on the endogenous formation of carbon dioxide. Stimulation by azide and 2,4‐dinitrophenol suggests that the supply of phosphate acceptors regulates the rate of endogenous respiration. Mercurials poison the endogenous respiration, cyanide accelerates it, and iodoacetate, arsenite, fluoride, and chelating agents have little effect. Respiration is little affected by changes in pH, external phosphate, oxygen concentration, and spore density, within the limits tested. Spore lipid concentration is increased by cultivation in a high‐glucose medium, but this variation in lipid content of spores docs not affect the endogenous Qo2, nor does a high lipid content abolish the requirement for exogenous carbon for germination. Lipid utilization during endogenous respiration accounts for 37% of the loss in dry weight; lipid is also utilized during germination, but such utilization amounts to only about 5% of the carbon requirement. Neither mannitol nor nitrogenous compounds are significant substrates of endogenous respiration. The oxidation of the exogenous substrates tested does not measurably affect the concomitant rate of endogenous respiration. It is proposed that endogenous respiration can contribute to the synthetic processes of spore germination, although quantitatively insufficient to support germination without exogenous carbon. It is also questioned whether the respiratory quotient is an adequate index of the substrate of endogenous respiration.

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Calden B. Collins

Spore Germination and Carbon Metabolism in Fusarium solani. III. Carbohydrate Respiration in Relation to Germination

Spore Germination and Carbon Metabolism in Fusarium Solani. Ii. Endogenous Respiration in Relation to Germination

Spore Germination and Carbon Metabolism in Fusarium solani. II. Endogenous Respiration in Relation to Germination

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