Loss of cGMP-dependent protein kinase II alters ultrasonic vocalizations in mice, a model for speech impairment in human microdeletion 4q21 syndrome
•Chromosome 4q21 microdeletion syndrome exhibits absent or delayed speech.•The cGMP-dependent protein kinase II (cGKII) gene is in chromosome 4q21.•cGKII knockout mice show restricted growth and deficits in learning and memory.•Ultrasonic vocalizations are altered in infant cGKII knockout pups.•cGKI...
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Veröffentlicht in: | Neuroscience letters 2021-08, Vol.759, p.136048-136048, Article 136048 |
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Zusammenfassung: | •Chromosome 4q21 microdeletion syndrome exhibits absent or delayed speech.•The cGMP-dependent protein kinase II (cGKII) gene is in chromosome 4q21.•cGKII knockout mice show restricted growth and deficits in learning and memory.•Ultrasonic vocalizations are altered in infant cGKII knockout pups.•cGKII knockout mice can be a valuable animal model for 4q21 microdeletion syndrome.
Chromosome 4q21 microdeletion leads to a human syndrome that exhibits restricted growth, facial dysmorphisms, mental retardation, and absent or delayed speech. One of the key genes in the affected region of the chromosome is PRKG2, which encodes cGMP-dependent protein kinase II (cGKII). Mice lacking cGKII exhibit restricted growth and deficits in learning and memory, as seen in the human syndrome. However, vocalization impairments in these mice have not been determined. The molecular pathway underlying vocalization impairment in humans is not fully understood. Here, we employed cGKII knockout (KO) mice as a model for the human microdeletion syndrome to test whether vocalizations are affected by loss of the PRKG2 gene. Mice emit ultrasonic vocalizations (USVs) to communicate in social situations, stress, and isolation. We thus recorded ultrasonic vocalizations as a model for human speech. We isolated postnatal day 5–7 pups from the nest to record and analyze USVs and found significant differences in vocalizations of KO mice relative to wild-type and heterozygous mutant mice. KO mice produced fewer calls that were shorter duration and higher frequency. Because neuronal activation in the arcuate nucleus in the hypothalamus is important for the production of animal USVs following isolation from the nest, we assessed neuronal activity in the arcuate nucleus of KO pups following isolation. We found significant reduction of neuronal activation in cGKII KO pups after isolation. Taken together, our studies indicate that cGKII is important for neuronal activation in the arcuate nucleus, which significantly contributes to the production of USVs in neonatal mice. We further suggest cGKII KO mice can be a valuable animal model to investigate pathophysiology of human microdeletion 4q21 syndrome |
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ISSN: | 0304-3940 1872-7972 |
DOI: | 10.1016/j.neulet.2021.136048 |