Agrin mRNA variants are differentially regulated in developing chick embryo spinal cord and sensory ganglia

Abstract

Agrin is a synapse‐organizing protein synthesized and externalized by motor neurons in the spinal cord, which organizes the postsynaptic apparatus of the developing neuromuscular jucntion. Agin mRNA in the nervous system consists of several alternatively spliced variants. Splicing of agrin gene transcripts at the major site of variability results in four variants: encoding 8 (B₈) or 11 (B₁₁) amino acid inserts, both (B₁₉), or a predominant variant (B₀) without inserts. The insert‐containing variants are neuron specific and encode agrin proteins with greater synapse‐organizing activity than the B₀ variant. Here, we report the localization and developmental regulation of agrin mRNA variants in chick embryo spinal cord and dorsal root ganglia. In situ hybridization using antisense oligodeoxynucleotide (ODN) probes specific for the B₈ and B₁₁ sequences shows that the neuorn‐specific variants are concentrated in ventrolateral cells of the chick embryo spinal cord, presumably motor neurons, begining at embryonic day 4 (E4). By E14, the insert‐containing mRNAs are found almost exclusively in presumptive motor neurons. These variants are also found in dorsal root ganglia and sympathetic ganglia, but not in non‐neural tissues. Analysis by polymerase chain reaction showed that the B₁₁ and B₁₉ mRNA variatns appeared in spinal cord at E4, whereas the B₈ variant was first seen at E14. During development, B₁₁ decreased and disappeared by E20, whereas B₈ increased from E14 to E20. A similar time course was seen in dorsal root ganglia. The greatest acetylcholine receptor‐aggregating activity in the spinal cord was seen from E6 to E10, coincident with the highest proportion of B₁₁‐containing transcripts and with the peak of synaptogenesis in limb muscles. These data provide the first evidence linking appearance of the neuron‐specific agrin mRNA variants with expression of the functional protien. The B₁₁ and B₁₉ variants appeared in E2 (stage 15) neural tubes cultured for 2 days with or without notochord and trunk tissues, indicating that there is no peripheral signal required to induce these agrin mRNA variants in developing motor neurons. © 1995 John Wiley & Sons, Inc.