ライフサイエンスコーパス: addictive drug

1 in regulating the behavioral responses to an addictive drug.

2 ventral tegmental area (VTA) in response to addictive drugs.

3 egion important for the rewarding effects of addictive drugs.

4 vironment or by the inappropriate stimuli of addictive drugs.

5 vational effects of both natural rewards and addictive drugs.

6 er' and become possible treatments for other addictive drugs.

7 the reinforcing actions of cocaine and other addictive drugs.

8 receptors in the effects of psychoactive and addictive drugs.

9 ving-that are associated with chronic use of addictive drugs.

10 ctions and dysfunctions that are elicited by addictive drugs.

11 mission and a target for antidepressants and addictive drugs.

12 at mediate vision, memory, and the action of addictive drugs.

13 etic mechanisms in the behavioral effects of addictive drugs.

14 m was stimulated by food, sexual arousal, or addictive drugs.

15 liking of various rewards including food and addictive drugs.

16 tural rewards converges with that engaged by addictive drugs.

17 nt role in homeostatic adaptations caused by addictive drugs.

18 r system, modulates the rewarding effects of addictive drugs.

19 ological reward processes may be affected by addictive drugs.

20 an identifying functional characteristic of addictive drugs.

21 ehaviors involved in responses to stress and addictive drugs.

22 ental conditioned stimuli and the effects of addictive drugs.

23 behavioral markers of the propensity to take addictive drugs.

24 o the rewarding effects of several different addictive drugs.

25 ave been implicated in enhanced responses to addictive drugs.

26 tical site of synaptic plasticity induced by addictive drugs.

27 entral tegmental area in response to several addictive drugs.

28 accompany some of the behavioural effects of addictive drugs.

29 ilar methods to examine the effects of other addictive drugs.

30 Addictive drugs affect acute responses and plasticity in

31 In some cases, such as addictive drugs, aggression can be highly rewarding (app

32 Addictive drugs alter activity in distinct neural circui

33 By increasing dopamine in the striatum, addictive drugs alter the balance of dopamine and glutam

34 initial pharmacological effect common to all addictive drugs-an increase in dopamine levels in the me

35 internally acknowledged that nicotine is an addictive drug and cigarettes are the ultimate nicotine

36 l studies indicate that experimentation with addictive drugs and onset of addictive disorders is prim

37 mediate incentive motivation ("wanting") for addictive drugs and other rewards, but not their hedonic

38 al tegmental area (VTA) is a major target of addictive drugs and receives multiple GABAergic projecti

39 ystem can modulate the reinforcing effect of addictive drugs and the anxiolytic effect of nicotine.

40 Cocaine is a highly addictive drug, and despite intensive efforts, effective

41 ral tegmental area (VTA) are a key target of addictive drugs, and neuroplasticity in this region may

42 s compulsive motivation or "wanting" to take addictive drugs; and (d) the idea that dysfunction of fr

43 The fundamental principle that unites addictive drugs appears to be that each enhances synapti

44 Alterations in behavior after exposure to addictive drugs are a striking example of chemical alter

45 duced in the central nervous system (CNS) by addictive drugs are of interest because of their relatio

46 The response to novelty and sensitivity to addictive drugs are positively correlated with the hormo

47 esolimbic dopamine-a defining feature of all addictive drugs-as a neural substrate for these drug-ada

48 Environmental stimuli repeatedly linked to addictive drugs become learned associations, and those s

49 vern activity-dependent synaptic plasticity, addictive drugs can derail the experience-driven neural

50 Exposure to addictive drugs can result in maladaptive alterations in

51 of the brain mechanisms they activate; most addictive drugs cause elevations in extracellular levels

52 Addictive drugs cause persistent restructuring of severa

53 amine, a potent psychostimulant, is a highly addictive drug commonly used by persons living with HIV

54 Persistent relapse to addictive drugs constitutes the most challenging problem

55 Not everyone who tries addictive drugs develops a substance use disorder.

56 tantly, the mechanisms through which HIV and addictive drugs disrupt homeostatic immune and CNS funct

57 As a result of habitual intake of addictive drugs, dopamine receptors expressed in the bra

58 on (LS) is an early behavioral adaptation to addictive drugs, driven by the increase of dopamine in t

59 , and its oligomerization may be relevant to addictive drug effects.

60 Chronic exposure to addictive drugs enhances cAMP response element binding p

61 s motor effects produced by marijuana and by addictive drugs enhancing dopamine levels in the Acb.

62 ug seeking in addicts and animals exposed to addictive drugs, even after abstinence or extinction.

63 ol.SIGNIFICANCE STATEMENT Over the course of addictive drug exposure, there is a transition in the co

64 a marker for neuroadaptive changes following addictive drug exposure.

65 n for and the reinforcement by both food and addictive drugs extends the argument for a common mechan

66 All addictive drugs facilitate dopamine transmission, and de

67 Addictive drugs have been hypothesized to access the sam

68 ction with a peer and then choose between an addictive drug (heroin or methamphetamine) and social in

69 How do addictive drugs hijack the brain's reward system?

70 Like addictive drugs, HP foods are complex, human-made substa

71 ely used to study motivational properties of addictive drugs in animals, but has rarely been used in

72 tine, one of the most widely used and highly addictive drugs in human use.

73 oordinate the actions of distinct classes of addictive drugs in NAc, we developed a CRISPR (clustered

74 ufficient to reduce the rewarding effects of addictive drugs in rodents.

75 These cues are also processed like addictive drugs in that they activate mesolimbic reward

76 l rewards, with brain stimulation reward and addictive drugs included in the latter category.

77 Nicotine, like other addictive drugs including psychomotor stimulants, promot

78 Addictive drugs increase dopamine in the nucleus accumbe

79 Addictive drugs increase ventral tegmental area (VTA) do

80 Addictive drugs induce a dopamine signal that contribute

81 Addictive drugs induce a truncated form of fosB in the s

82 oadaptations induced by repeated exposure to addictive drugs is a persistent sensitized behavioral re

83 ation and consumption of HP foods as well as addictive drugs is discussed.

84 Seeking addictive drugs is regulated by synaptic plasticity in t

85 red the observation that a common feature of addictive drugs is to activate, by a double tyrosine/thr

86 ctors, shaping individuals' vulnerability to addictive drugs like cocaine.

87 It has been recently discussed that addictive drugs may hijack the learning-and-memory machi

88 ng the brain mechanisms affected by distinct addictive drugs may inform targeted therapies against sp

89 Shared adaptations between addictive drugs may mediate core processes of addiction.

90 a (VTA) dopamine (DA) neurons in response to addictive drugs may underlie the transition from casual

91 002 to 0.0052; p=0.069), and the presence of addictive-drug metabolites in urine (0.103, -0.013 to 0.

92 ysiologically relevant concentrations of the addictive drug nicotine directly cause in vivo hippocamp

93 have become more effective at delivering the addictive drug nicotine, they have become the dominant f

94 t of tobacco that drives use, and like other addictive drugs, nicotine reinforces self-administration

95 Methamphetamine is a popular and highly addictive drug of abuse that has raised concerns because

96 Methamphetamine is a highly addictive drug of abuse that is neurotoxic to dopamine t

97 t effective analgesics known but also highly addictive drugs of abuse.

98 SIGNIFICANCE STATEMENT: It is believed that addictive drugs often render an addict's brain reward sy

99 Repeated exposure to addictive drugs or alcohol triggers glutamatergic and ga

100 aal et al. find that exposure to any of five addictive drugs or exposure to a brief stressor produces

101 receptors could be developed for additional addictive drugs or hormones and metabolites, which would

102 ressive predominance of rewarding effects of addictive drugs over their aversive properties likely co

103 Repeated use of addictive drugs produces long-lasting and prepotent drug

104 l area (VTA) are modified during exposure to addictive drugs, producing sensitization, a progressive

105 Questions about the molecular actions of addictive drugs, prominently including the actions of al

106 ences and prolonged exposure of the brain to addictive drugs promote its development.

107 Addictive drug reinforcement and stress signaling involv

108 nistic kinship revealed between learning and addictive drug response behaviors in flies.

109 rved in visual system, synapses modulated by addictive drugs (rewarded synapses), chronically overact

110 ine reward circuits known to be activated by addictive drugs (right posterior amygdala, posterior hip

111 Stress facilitates reinstatement of addictive drug seeking in animals and promotes relapse i

112 te into psychotic symptoms and contribute to addictive-drug-seeking behavior, anxiety and phobia.

113 and that it produces the hallmark effects of addictive drugs: sensitization, tolerance, physical depe

114 Addictive drugs share the ability to increase dopamine (

115 Addictive drugs steepen neuronal temporal reward discoun

116 Addictive drugs subvert normal synaptic plasticity mecha

117 inforcing biologically rewarding events, but addictive drugs such as cocaine can inappropriately exer

118 Addictive drugs such as cocaine induce synaptic plastici

119 antagonist of sensitized behavior induced by addictive drugs such as cocaine.

120 Our results suggest that addictive drugs such as ethanol alter NMDAR trafficking

121 duce or eliminate the need for use of highly addictive drugs such as opioids.

122 as adaptations to chronic administration of addictive drugs such as psychostimulants and therapeutic

123 Exposure to addictive drugs such as psychostimulants produces persis

124 Addictive drugs, such as cocaine, induce a rapid increas

125 yle but also the immunomodulatory effects of addictive drugs, such as cocaine, may account for their

126 Cocaine is an addictive drug that acts in brain reward areas.

127 Cocaine is a highly addictive drug that binds to the dopamine transporter (D

128 nown by its genetic name Fenethylline, is an addictive drug that complicates the War on Drugs.

129 Cocaine is a highly addictive drug that exerts its effects by increasing the

130 Morphine is a widely abused, addictive drug that modulates immune function.

131 Alcohol is an addictive drug that targets a variety of ion channels an

132 Although cocaine is known to be a highly addictive drug, there appears to be a select subset of i

133 tamate interaction in MSN that is usurped by addictive drugs to elicit persistent behavioural alterat

134 lecular changes induced by administration of addictive drugs to rodents.

135 Use of one addictive drug typically influences the behavioral respo

136 Addictive drug use causes long-lasting changes in synapt

137 Many studies support a perspective that addictive drugs usurp brain circuits used by natural rew

138 Addictive drugs usurp neural plasticity mechanisms that

139 nally address the question of whether or not addictive drugs usurp the neuronal networks recruited by

140 ed plasticity-some of which is shared by all addictive drugs, whereas other aspects are specific to c

141 One example is addictive drugs, which elicit a positive-feedback cycle

142 Methamphetamine is a popular addictive drug whose use is associated with multiple neu

143 Amphetamine, a highly addictive drug with therapeutic efficacy, exerts paradox

144 ediction of the three most frequently abused addictive drugs with the sensitivity and accuracy of the

145 Nicotine is a widely used addictive drug, with an estimated 73 million Americans 1