TY - JOUR
T1 - Technetium-99m-labeled receptor-specific small-molecule radiopharmaceuticals
T2 - Recent developments and encouraging results
AU - Hom, Roy K.
AU - Katzenellenbogen, John A.
N1 - Funding Information:
We thank Drs. Bertha K. Madras, Peter C. Meltzer, and Milind Rajopadhye for aiding us through insightful discussion of their research, and Drs. Bernd Johannsen, Christy S. John, Hank F. Kung, John Neumeyer, David Piwnica-Worms, and David R. Vera for kindly providing preprints of their latest work to be in&u&d in this review. We are grateful to Dr. Michael J. Welch for helpful suggestions on the manuscript. Work from our fuboratory has been supported by grants from the National Institutes of Health (CA 25863) and the Department of Energy (86 ER 6040 I ) .
PY - 1997/8
Y1 - 1997/8
N2 - The development of technetium-99m-labeled small-molecule radiopharmaceuticals directed at specific high-affinity binding sites, as are found in receptors for hormones and neurotransmitters, transport systems, and certain enzymes, is a natural outgrowth from the successful development of technetium radiopharmaceuticals for imaging flow and metabolism. Although many receptor-specific radiopharmaceuticals labeled with PET and other SPECT isotopes already exist, the low cost and widespread availability of technetium-99m would make their (99m)Tc-labeled counterparts much more accessible to the medical community. This review has four goals: (a) To survey and analyze critically the results of a flurry of research activity in this area in recent years, which has led to the preparation of a number of novel technetium-labeled radiopharmaceuticals targeted at high-affinity sites, a few of which appear to be very promising; (b) to provide a conceptual analysis of how these agents are being designed; (c) to provide a context in terms of binding and uptake behavior by which these agents should be judged; and (d) to highlight emerging knowledge on the structure of receptors and related high-affinity binding biomolecules and their distribution, which may serve as reference points for understanding the results that have been obtained so far, and may be useful guides for future design.
AB - The development of technetium-99m-labeled small-molecule radiopharmaceuticals directed at specific high-affinity binding sites, as are found in receptors for hormones and neurotransmitters, transport systems, and certain enzymes, is a natural outgrowth from the successful development of technetium radiopharmaceuticals for imaging flow and metabolism. Although many receptor-specific radiopharmaceuticals labeled with PET and other SPECT isotopes already exist, the low cost and widespread availability of technetium-99m would make their (99m)Tc-labeled counterparts much more accessible to the medical community. This review has four goals: (a) To survey and analyze critically the results of a flurry of research activity in this area in recent years, which has led to the preparation of a number of novel technetium-labeled radiopharmaceuticals targeted at high-affinity sites, a few of which appear to be very promising; (b) to provide a conceptual analysis of how these agents are being designed; (c) to provide a context in terms of binding and uptake behavior by which these agents should be judged; and (d) to highlight emerging knowledge on the structure of receptors and related high-affinity binding biomolecules and their distribution, which may serve as reference points for understanding the results that have been obtained so far, and may be useful guides for future design.
KW - Neurotransmitter receptor
KW - Neurotransmitter transporter
KW - Steroid receptor
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U2 - 10.1016/S0969-8051(97)00066-8
DO - 10.1016/S0969-8051(97)00066-8
M3 - Review article
C2 - 9316075
AN - SCOPUS:0030808619
SN - 0969-8051
VL - 24
SP - 485
EP - 498
JO - Nuclear Medicine and Biology
JF - Nuclear Medicine and Biology
IS - 6
ER -