EphrinA4 mimetic peptide impairs fear conditioning memory reconsolidation in lateral amygdala.

Fear memory may undergo a process after memory reactivation called reconsolidation. To examine the roles of ephrinA4 in fear memory reconsolidation an inhibitory ephrinA4 mimetic peptide (pep-ephrinA4), that targets the EphA binding site and inhibits EphA activation, was used. Pep-ephrinA4 was microinjected into the lateral amygdala (LA) of fear-conditioned rats 24 h after training and 30 min before tone CS memory retrieval. Memory retrieval was unaffected by pep-ephrinA4. However, the animals were impaired in fear memory tested 1 h or 24 h afterward when compared to controls. Fear-conditioned animals injected with pep-ephrinA4 into LA immediately after long-term memory retrieval were unaffected when tested 24 h afterward. Microinjection into LA of a peptide originated from an ephrinA4 site that does not interact with EphA did not affect fear memory reconsolidation. Rats that were administrated with pep-ephrinA4 systemically 24 h after fear conditioning and 30 min before CS memory retrieval were impaired in long-term fear conditioning memory tested 24 h afterward when compared to the control peptide. These results show that ephrinA4 binding sites are needed for long-term fear memory reconsolidation in LA and may serve as a target for the treatment of fear-related disorders by blocking reconsolidation.

Ephrin-A4 inhibits sensory neurite outgrowth and is regulated by neonatal skin wounding.

The mechanisms for directing and organising sensory axons within developing skin remain largely unknown. The present study provides the first evidence that signalling occurs between A-ephrins and Eph-A receptors during the development of rat cutaneous sensory innervation both during normal development and following skin injury. Specifically, our data indicate that ephrin-A4 mRNA and protein are expressed in the epidermis during late embryogenesis and the early postnatal period (E16-P3), and expression is significantly down-regulated postnatally. In addition, Eph-A receptors are expressed on dorsal root ganglia (DRG) cells at birth. The pattern of ephrin-A4 expression is mirrored by epidermal innervation, so that sensory terminals are restricted to epidermal regions devoid of ephrin-A4 but increase as ephrin-A4 expression subsides postnatally. Neonatal skin wounding causes sensory hyperinnervation and a differential screen of wounded vs. nonwounded skin revealed down-regulation of epidermal ephrin-A4 following neonatal skin wounding. Expression studies showed that this down-regulation is below the wound and coincides exactly with the onset of hyperinnervation. In vitro experiments show a function for ephrin-A4-Fc in inhibiting rat DRG neuronal growth and guidance when presented as either substratum-bound stripes of ephrin-A4-Fc or as soluble clustered proteins. In conclusion, these observations suggest that the Eph family ligand ephrin-A4 has an inhibitory influence on neonatal cutaneous nerve terminals from DRG sensory neurons in the hindlimb, and may serve to prevent inappropriate innervation of cutaneous regions. In addition, the absence of ephrin-A4 following neonatal skin wounding may play a critical permissive role in the sprouting response.