# Intersubunit communication in glycogen phosphorylase influences substrate recognition at the catalytic sites

**Authors:** Nahori Kamada, Ayato Ikeda, Yasushi Makino, Hiroshi Matsubara

PMC · DOI: 10.1007/s00726-023-03362-6 · Amino Acids · 2024-02-10

## TL;DR

This study explores how glycogen phosphorylase subunits interact to influence how the enzyme recognizes its substrate.

## Contribution

The study characterizes GPab and reveals unique substrate recognition influenced by intersubunit communication.

## Key findings

- GPab exhibits unique AMP-binding affinity compared to a half-half GPa/GPb mixture.
- The Vderivative/VPA-0 ratio for GPab differs significantly from that of the half-half GPa/GPb mixture.
- Intersubunit communication in GP affects substrate recognition at catalytic sites.

## Abstract

Glycogen phosphorylase (GP) is biologically active as a dimer of identical subunits, each activated by phosphorylation of the serine-14 residue. GP exists in three interconvertible forms, namely GPa (di-phosphorylated form), GPab (mono-phosphorylated form), and GPb (non-phosphorylated form); however, information on GPab remains scarce. Given the prevailing view that the two GP subunits collaboratively determine their catalytic characteristics, it is essential to conduct GPab characterization to gain a comprehensive understanding of glycogenolysis regulation. Thus, in the present study, we prepared rabbit muscle GPab from GPb, using phosphorylase kinase as the catalyst, and identified it using a nonradioactive phosphate-affinity gel electrophoresis method. Compared with the half-half GPa/GPb mixture, the as-prepared GPab showed a unique AMP-binding affinity. To further investigate the intersubunit communication in GP, its catalytic site was probed using pyridylaminated-maltohexaose (a maltooligosaccharide-based substrate comprising the essential dextrin structure for GP; abbreviated as PA-0) and a series of specifically modified PA-0 derivatives (substrate analogs lacking part of the essential dextrin structure). By comparing the initial reaction rates toward the PA-0 derivative (Vderivative) and PA-0 (VPA-0), we demonstrated that the Vderivative/VPA-0 ratio for GPab was significantly different from that for the half-half GPa/GPb mixture. This result indicates that the interaction between the two GP subunits significantly influences substrate recognition at the catalytic sites, thereby providing GPab its unique substrate recognition profile.

## Linked entities

- **Chemicals:** AMP (PubChem CID 6083), maltooligosaccharide (PubChem CID 439586)

## Full-text entities

- **Genes:** GYPA (glycophorin A (MNS blood group)) [NCBI Gene 2993] {aka CD235a, GPA, GPErik, GPSAT, HGpMiV, HGpMiXI}, RNF130 (ring finger protein 130) [NCBI Gene 55819] {aka G1RP, G1RZFP, GOLIATH, GP}
- **Chemicals:** phosphate (MESH:D010710), AMP (MESH:D000249), maltooligosaccharide (MESH:C021705), GPab (-)

## Full text

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## Figures

7 figures with captions in the complete paper: https://tomesphere.com/paper/PMC10858836/full.md

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Source: https://tomesphere.com/paper/PMC10858836