K. K. Henricks scite author profile

K. K. Henricks

3Publications

35Citation Statements Received

29Citation Statements Given

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Albany State University, University at Albany, State University of New York

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Sensitivity to cocaine and amphetamine among mice selectively bred for differential cocaine sensitivity

et al. 1998

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Selective breeding of mice for differences in response to a drug offers a powerful means for testing hypotheses regarding underlying mechanisms and relationships between drug-induced behaviors. Starting from a heterogeneous stock of mice, we have selectively bred lines of mice for extreme differences in their locomotor response to 10 mg/kg cocaine HCl. Selection pressure has been maintained for 12 generations and has resulted in two cocaine sensitive (CAHI) and two cocaine insensitive (CALO) lines. Across the generations of selection, the CAHI lines showed progressively greater amounts of cocaine-induced locomotion, with mice from the S12 generation traveling over 21,000 cm/30 min. following 10 mg/kg cocaine. The CALO lines, in contrast, did not substantially diverge from control values until the S8 generation. By generation 12, however, the LO lines traveled no further following 10 mg/kg cocaine (7000 cm/30 min), than they did following an initial saline injection. Cocaine and amphetamine dose-response analyses were conducted on drug-naive mice from the tenth generation. The CAHI lines were extremely sensitive to the locomotor activating effects of all doses of cocaine, displaying from 2- to 6-fold greater amounts of cocaine-induced locomotion than the CALO lines. The CALO lines, in contrast, were completely insensitive to the psychomotor stimulant effects of cocaine. The CAHI lines were also more sensitive to the locomotor activating effects of amphetamine. Both lines showed dose-dependent amphetamine-induced locomotion that peaked at 3 mg/kg. However, at all doses, the CAHI lines showed a 2- to 4-fold greater amount of locomotion than CALO lines. Thus, the sensitivity to cocaine developed through selection using a single dose of cocaine has generalized to a range of doses of cocaine and to at least one other psychostimulant.

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Differential cocaine sensitivity between two closely related substrains of C57BL mice

1997

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While there is evidence that individual differences in response to cocaine are mediated, in part, by genetic factors, no single gene has been identified that can account for differential responsivity to cocaine. Recent studies in our laboratory may have moved us closer to identification of the gene(s) underlying cocaine sensitivity. We have identified several cocaine-related phenotypes on which two substrains of C57BL mice (6J and ByJ) differ. The genealogy of these two substrains leads to the expectation that they should be genetically very similar, differing at only a few loci. The large differences between the two substrains in cocaine sensitivity may be influenced by allelic differences at a major gene mediating the actions of cocaine. Naive ByJ mice are more resistant to cocaine-induced seizures than are 6J mice. Furthermore, among 6J mice repeated exposure to cocaine results in a decreased susceptibility to cocaine-induced seizure, while among ByJ mice, the same treatment gives rise to an increased susceptibility to seizures. In contrast to their lower sensitivity to cocaine-induced seizures, ByJ mice show a greater sensitivity to cocaine's locomotor stimulant effects. Furthermore, the repeated pairing of cocaine and the test environment results in the development of conditioned locomotion during subsequent exposure to that environment among 6J, but not ByJ, mice. Similarly, a greater degree of conditioned sensitization to the locomotor stimulant effects of cocaine develops in 6J mice.

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Deoxycorticosterone Acetate (DOCA)-Induced Sodium Appetite in Group-Housed Mice

Rodd

Henricks

McCutcheon

1996

Physiology & Behavior

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K. K. Henricks

Sensitivity to cocaine and amphetamine among mice selectively bred for differential cocaine sensitivity

Differential cocaine sensitivity between two closely related substrains of C57BL mice

Deoxycorticosterone Acetate (DOCA)-Induced Sodium Appetite in Group-Housed Mice

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