Add to ORKGInfant rats require maternal odor learning to guide pups' proximity-seeking of the mother and nursing. Maternal odor learning occurs using a simple learning circuit including robust olfactory bulb norepinephrine (NE), release from the locus ceruleus (LC), and amygdala suppression by low corticosterone (CORT). Early-life stress increases NE but also CORT, and we questioned whether early-life stress disrupted attachment learning and its neural correlates [2-deoxyglucose (2-DG) autoradiography]. Neonatal rats were normally reared or stressed-reared during the first 6 d of life by providing the mother with insufficient bedding for nest building and were odor-0.5 mA shock conditioned at 7 d old. Normally reared paired pups exhibited typical...
Early odor preference learning offers a unique paradigm for the study of natural mammalian learning....
The developmental onset of aversive learning processes depends on complex interactions between endoc...
The complex mechanisms by which early life factors can impact the developing mammalian system remain...
Early life trauma alters later life emotions, including fear. To better understand mediating mechani...
International audienceMaltreatment from the caregiver induces vulnerability to later life psychopath...
Infant rats must learn to identify their mother’s diet-dependent odor. Once learned, maternal odor c...
International audienceInfant survival relies on rapid identification, remembering and behavioral res...
Early-life maternal separation leads to hyper-reactive stress-response in adulthood along with long-...
Early-life environmental events, such as the handling procedure, can induce long-lasting alterations...
Fetal and infant rats can learn to avoid odors paired with illness before development of brain areas...
Tania RothInfant-caregiver experiences are known to impact neurobiological and behavioral developme...
A strong attachment to the caregiver is critical for survival in altricial species, including humans...
Non-associative memory contributes to filtering extraneous information from the environment. Additio...
AbstractPrenatal stress (PS) and early postnatal environment may alter maternal care. Infant rats le...
BackgroundEarly-life emotional stress may be associated with affective and cognitive disorders later...
Early odor preference learning offers a unique paradigm for the study of natural mammalian learning....
The developmental onset of aversive learning processes depends on complex interactions between endoc...
The complex mechanisms by which early life factors can impact the developing mammalian system remain...
Early life trauma alters later life emotions, including fear. To better understand mediating mechani...
International audienceMaltreatment from the caregiver induces vulnerability to later life psychopath...
Infant rats must learn to identify their mother’s diet-dependent odor. Once learned, maternal odor c...
International audienceInfant survival relies on rapid identification, remembering and behavioral res...
Early-life maternal separation leads to hyper-reactive stress-response in adulthood along with long-...
Early-life environmental events, such as the handling procedure, can induce long-lasting alterations...
Fetal and infant rats can learn to avoid odors paired with illness before development of brain areas...
Tania RothInfant-caregiver experiences are known to impact neurobiological and behavioral developme...
A strong attachment to the caregiver is critical for survival in altricial species, including humans...
Non-associative memory contributes to filtering extraneous information from the environment. Additio...
AbstractPrenatal stress (PS) and early postnatal environment may alter maternal care. Infant rats le...
BackgroundEarly-life emotional stress may be associated with affective and cognitive disorders later...
Early odor preference learning offers a unique paradigm for the study of natural mammalian learning....
The developmental onset of aversive learning processes depends on complex interactions between endoc...
The complex mechanisms by which early life factors can impact the developing mammalian system remain...