Alexander L. Malooley scite author profile

Pro-islet amyloid polypeptide (proIAPP) is the prohormone precursor molecule to IAPP, also known as amylin. IAPP is a calcitonin family peptide hormone that is cosecreted with insulin, and largely responsible for hunger satiation and metabolic homeostasis. Amyloid plaques containing mixtures of mature IAPP and misprocessed proIAPP deposit on, and destroy pancreatic β-cell membranes, and they are recognized as a clinical hallmark of type 2 diabetes mellitus. In order to better understand the interaction with cellular membranes, we solved the solution NMR structure of proIAPP bound to dodecylphosphocholine micelles at pH 4.5. We show that proIAPP is a dynamic molecule with four α-helices. The first two helices are contained within the mature IAPP sequence, while the second two helices are part of the C-terminal prohormone segment (Cpro). We mapped the membrane topology of the amphipathic helices by paramagnetic relaxation enhancement, and we used CD and diffusion-ordered spectroscopy to identify environmental factors that impact proIAPP membrane affinity. We discuss how our structural results relate to prohormone processing based on the varied pH environments and lipid compositions of organelle membranes within the regulated secretory pathway, and the likelihood of Cpro survival for cosecretion with IAPP. Database The assigned resonances have been deposited in the Biological Magnetic Resonance Bank (BMRB) with accession numbers 50007 and 50019 for proIAPP and Cpro, respectively. The lowest energy structures have been deposited in the Protein Data Bank (PDB) with access codes 6UCJ and 6UCK.

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Super-Resolution NMR Spectroscopy using the Intersection of Non-Redundant Information on Resonance Groups

Lorieau

Malooley

Banerjee

2022

Preprint

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The resolution of spectra is a major limitation in the application of Nuclear Magnetic Resonance (NMR) spectroscopy to large and complex molecular systems. In this report, we introduce a technique to enhance the resolution of NMR spectra beyond the intrinsic limitations of a spectrometer for a single spectrum by using the Intersection of Non-Redundant Information on Resonance Groups (INIR). With INIR, we reconstruct 900-MHz (21.1T) spectra from a 500 MHz (11.7T) NMR spectrometer, which compare favorably to experimental 900 MHz spectra. INIR holds promise in significantly enhancing the resolution of NMR spectra and in extending the size and complexity of molecules studied by NMR.

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Alexander L. Malooley

Pro‐islet amyloid polypeptide in micelles contains a helical prohormone segment

Super-Resolution NMR Spectroscopy using the Intersection of Non-Redundant Information on Resonance Groups

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