Sonoko Hasegawa scite author profile

Serotonergic axons from the raphe nuclei in the brainstem project to every region of the brain, where they make connections through their extensive terminal arborizations. This serotonergic innervation contributes to various normal behaviors and psychiatric disorders. The protocadherin-␣ (Pcdha) family of clustered protocadherins consists of 14 cadherin-related molecules generated from a single gene cluster. We found that the Pcdhas were strongly expressed in the serotonergic neurons. To elucidate their roles, we examined serotonergic fibers in a mouse mutant (Pcdha ⌬CR/⌬CR ) lacking the Pcdha cytoplasmic region-encoding exons, which are common to the gene cluster. In the first week after birth, the distribution pattern of serotonergic fibers in Pcdha ⌬CR/⌬CR mice was similar to wild-type, but by 3 weeks of age, when the serotonergic axonal termini complete their arborizations, the distribution of the projections was abnormal. In some target regions, notably the globus pallidus and substantia nigra, the normally even distribution of serotonin axonal terminals was, in the mutants, dense at the periphery of each region, but sparse in the center. In the stratum lacunosum-moleculare of the hippocampus, the mutants showed denser serotonergic innervation than in wild-type, and in the dentate gyrus of the hippocampus and the caudateputamen, the innervation was sparser. Together, the abnormalities suggested that Pcdha proteins are important in the late-stage maturation of serotonergic projections. Further examination of alternatively spliced exons encoding the cytoplasmic tail showed that the A-type (but not the B-type) cytoplasmic tail was essential for the normal development of serotonergic projections.

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Distinct and Cooperative Functions for the Protocadherin-α, -β and -γ Clusters in Neuronal Survival and Axon Targeting

Hasegawa

Kumagai

Hagihara

et al. 2016

Front. Mol. Neurosci.

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The clustered protocadherin (Pcdh) genes are divided into the Pcdhα, Pcdhβ, and Pcdhγ clusters. Gene-disruption analyses in mice have revealed the in vivo functions of the Pcdhα and Pcdhγ clusters. However, all Pcdh protein isoforms form combinatorial cis-hetero dimers and enter trans-homophilic interactions. Here we addressed distinct and cooperative functions in the Pcdh clusters by generating six cluster-deletion mutants (Δα, Δβ, Δγ, Δαβ, Δβγ, and Δαβγ) and comparing their phenotypes: Δα, Δβ, and Δαβ mutants were viable and fertile; Δγ mutants lived less than 12 h; and Δβγ and Δαβγ mutants died shortly after birth. The Pcdhα, Pcdhβ, and Pcdhγ clusters were individually and cooperatively important in olfactory-axon targeting and spinal-cord neuron survival. Neurodegeneration was most severe in Δαβγ mutants, indicating that Pcdhα and Pcdhβ function cooperatively for neuronal survival. The Pcdhα, Pcdhβ, and Pcdhγ clusters share roles in olfactory-axon targeting and neuronal survival, although to different degrees.

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Down‐regulation of protocadherin‐α A isoforms in mice changes contextual fear conditioning and spatial working memory

Fukuda

Hamada

Hasegawa

et al. 2008

Eur J of Neuroscience

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Diverse protocadherins (Pcdhs), which are encoded as a large cluster (composed of a, b and c clusters) in the genome, are localized to axons and synapses. The Pcdhs have been proposed to contribute to the generation of sophisticated neural networks and to regulate brain function. To address the molecular roles of Pcdhs in regulating individual behavior, here we generated knockdown mice of Pcdh-a proteins and examined their behavioral abnormalities. There are two alternative splicing variants of the Pcdh-a constant region, Pcdh-a A and B isoforms, with different cytoplasmic tails. Pcdh-a DBneo ⁄ DBneo mice, in which the Pcdh-a B splicing variant was absent and the Pcdh-a A isoforms were down-regulated to approximately 20% of the wild-type level, exhibited enhanced contextual fear conditioning and disparities in an eight-arm radial maze. Similar abnormalities were found in Pcdh-a DAneo ⁄ DAneo mice, which lacked 57 amino acids of the Pcdh-a A cytoplasmic tail. These learning abnormalities were, however, not seen in Pcdh-a DB ⁄ DB mice [in which the neomycin-resistance (neo) gene cassette was removed from the Pcdh-a DBneo ⁄ DBneo alleles], in which the expression level of the Pcdh-a A isoforms was recovered, although the Pcdh-a B isoforms were still completely missing in the brain. In addition, the amount of 5-hydroxytryptamine increased in the hippocampus of the hypomorphic Pcdh-a A mutant mice but not in recovery Pcdh-a DB ⁄ DB. These results suggested that the level of Pcdh-a A isoforms in the brain has an important role in regulating learning and memory functions and the amount of 5-hydroxytryptamine in the hippocampus.

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Sonoko Hasegawa

The protocadherin-α family is involved in axonal coalescence of olfactory sensory neurons into glomeruli of the olfactory bulb in mouse

Protocadherin-α Family Is Required for Serotonergic Projections to Appropriately Innervate Target Brain Areas

Distinct and Cooperative Functions for the Protocadherin-α, -β and -γ Clusters in Neuronal Survival and Axon Targeting

Down‐regulation of protocadherin‐α A isoforms in mice changes contextual fear conditioning and spatial working memory

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