A. Detta scite author profile

A. Detta

4Publications

162Citation Statements Received

54Citation Statements Given

How they've been cited

250

142

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Affiliations

University Hospitals Birmingham NHS Foundation Trust, University of Birmingham, Queen Elizabeth Hospital Birmingham

Publications

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l-Amino Acid Transporter-1 and Boronophenylalanine-Based Boron Neutron Capture Therapy of Human Brain Tumors

Detta

Cruickshank

2009

108

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The system L-amino acid transporter-1 (LAT-1) imports pboronophenylalanine (BPA) into cells and may play a major role in the effectiveness of BPA-based boron neutron capture therapy. The functional status of LAT-1 and its relationship to cell proliferation were simultaneously examined in the same section of human tumor material using a dual-labeling technique. The uptake of BPA (boron inductively coupled plasma mass spectrometry) was profiled in the presence of agonists and antagonists in fresh tumor explants. The number of LAT-1-expressing cells (mean F SD) was three times higher than that of proliferating cell nuclear antigen (PCNA)-expressing cells (71.5 F 17.02% versus 23.8 F 16.5%; P < 0.0001; n = 38 glioblastoma and metastatic tumors). There was no correlation between PCNA cells and the number of LAT-1/ PCNA double-stained cells, and not all PCNA-expressing cells coexpressed LAT-1. Boron uptake reached 30 F 15 Mg/g of wet weight of tissue by 4 hours both in tumor and brain around tumor tissue containing tumor cells compared with time 0 (P < 0.005; n = 4 glioblastoma tumors). This uptake was inhibited by both phenylalanine and 2-aminobicyclo-(2,2,1)-heptane-2-carboxylic acid. These LAT-1 data indicate that BPA-based boron neutron capture therapy might affect up to 70% of tumor cells, representing a three times higher proportion of tumor cells than their cell cycle status might suggest. Cells expressing PCNA, but not LAT-1, will require a different therapeutic strategy. [Cancer Res 2009;69(5):2126-32]

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Gonadotropin-Releasing Hormone Desensitization Preferentially Inhibits Expression of the Luteinizing Hormone β-Subunit Genein Vivo

Lalloz¹,

Detta²,

Clayton³

1988

Endocrinology

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In this study we investigated changes in steady state cytoplasmic mRNA levels for LH subunits in pituitaries of male rats desensitized by continuous infusion of GnRH in vivo. Seven days of GnRH infusion (340 micrograms/day) reduced (P less than 0.01) LH beta mRNA levels in intact adult male rats and prevented the LH beta mRNA rise observed after castration. In contrast, common alpha mRNA doubled (P less than 0.05) in intact rats, and the elevated alpha mRNA after 7 days castration was unchanged. Serum and pituitary LH levels were suppressed below values of intact controls. Fourteen days of GnRH infusion (290 micrograms/day) further reduced LH beta mRNA levels in both intact and castrated male rat pituitaries. alpha mRNA levels in intact rat pituitaries were unchanged by 14 days of GnRH infusion, while in castrated rats there was a 23% (P less than 0.05) decrease, though values were still twice those of intact controls. As at 7 days, serum and pituitary LH were suppressed. Infusion of a superagonist analog (Buserelin) at a dose of 14 micrograms/day for 28 days reduced LH beta mRNA to 15% of intact control values in both castrated and intact rats. Common alpha mRNA was significantly (P less than 0.05) increased in intact rats and reduced by 13% (P less than 0.05) in castrates by superagonist infusion. These results were similar to those produced by 20- to 30-fold higher doses of native GnRH. GnRH and agonist analog effects were specific since no changes were observed in other mRNA species (GH, PRL, actin). These results indicate that in GnRH-desensitized gonadotropes LH beta gene expression is inhibited, and this may largely explain the reduced LH biosynthesis. However, there is a differential effect of continuous GnRH or agonist analog treatment on LH subunit gene expression, with a time-dependent stimulation of common alpha gene expression in intact rats. This may be caused by a stimulatory interaction between GnRH and progestagens at the level of the gonadotrope. Thus, common alpha gene expression is less tightly coupled than that of LH beta to GnRH action.

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Gonadotropin-Releasing Hormone is Required for Enhanced Luteinizing Hormone Subunit Gene Expressionin Vivo

Lalloz¹,

Detta²,

Clayton³

1988

Endocrinology

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Pre- and postcastration changes in LH beta and common alpha mRNAs were correlated with pituitary and serum LH levels in two different species after abolition of pituitary stimulation by GnRH. A GnRH antagonist (GnRH-ANT) was used to block gonadotroph GnRH receptors in male rats, and a GnRH antiserum (GnRH-AS) was used to inhibit GnRH stimulation of female and male mouse and male rat pituitaries. The postcastration increases in LH beta and common alpha mRNA levels (2- and 3.5-fold, respectively) were abolished in male rats after 7 days of continuous GnRH-ANT infusion. The postcastration increases in LH beta and common alpha mRNA in female (1.9- and 2.2-fold respectively) and male mice (1.4- and 3.6-fold, respectively) were also prevented after daily sc injection of GnRH-AS, as were the rises in LH beta (3-fold) and common alpha (4-fold) in castrated male rats. The pituitary LH content (postgonadectomy) was no different from intact control levels in all experimental animals regardless of treatment, while the increase in serum LH concentration in rats (7- and 8-fold) and in female (4.8-fold) and male mice (9.8-fold) was prevented by both GnRH-ANT and GnRH-AS administration. In intact rats treated with GnRH-ANT the LH beta mRNA level decreased (57%) while the common alpha mRNA level was unaffected after 7 days. Neither pituitary nor serum LH levels were altered in intact rats or mice after appropriate treatments. We conclude that endogenous GnRH is required for the postcastration rise of both LH beta and common alpha-subunit mRNA levels in rats and mice.

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Proliferative activity and in vitro replication of HSV1716 in human metastatic brain tumours

Detta

Harland

Hanif

et al. 2003

The Journal of Gene Medicine

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A. Detta

l-Amino Acid Transporter-1 and Boronophenylalanine-Based Boron Neutron Capture Therapy of Human Brain Tumors

Gonadotropin-Releasing Hormone Desensitization Preferentially Inhibits Expression of the Luteinizing Hormone β-Subunit Genein Vivo

Gonadotropin-Releasing Hormone is Required for Enhanced Luteinizing Hormone Subunit Gene Expressionin Vivo

Proliferative activity and in vitro replication of HSV1716 in human metastatic brain tumours

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