Translational Psychiatry (Apr 2023)
Carboxypeptidase E conditional knockout mice exhibit learning and memory deficits and neurodegeneration
Abstract
Abstract Carboxypeptidase E (CPE) is a multifunctional protein with many nonenzymatic functions in various systems. Previous studies using CPE knock-out mice have shown that CPE has neuroprotective effects against stress and is involved in learning and memory. However, the functions of CPE in neurons are still largely unknown. Here we used a Camk2a-Cre system to conditionally knockout CPE in neurons. The wild-type, CPE flox/−, and CPE flox/flox mice were weaned, ear-tagged, and tail clipped for genotyping at 3 weeks old, and they underwent open field, object recognition, Y-maze, and fear conditioning tests at 8 weeks old. The CPE flox/flox mice had normal body weight and glucose metabolism. The behavioral tests showed that CPE flox/flox mice had impaired learning and memory compared with wild-type and CPE flox/- mice. Surprisingly, the subiculum (Sub) region of CPE flox/flox mice was completely degenerated, unlike the CPE full knockout mice, which exhibit CA3 region neurodegeneration. In addition, doublecortin immunostaining suggested that neurogenesis in the dentate gyrus of the hippocampus was significantly reduced in CPE flox/flox mice. Interestingly, TrkB phosphorylation in the hippocampus was downregulated in CPE flox/flox mice, but brain-derived neurotrophic factor levels were not. In both the hippocampus and dorsal medial prefrontal cortex, we observed reduced MAP2 and GFAP expression in CPE flox/flox mice. Taken together, the results of this study demonstrate that specific neuronal CPE knockout leads to central nervous system dysfunction in mice, including learning and memory deficits, hippocampal Sub degeneration and impaired neurogenesis.
