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  • LIV-1 ZIP ectodomain shedding in prion-infected mice resembles cellular response to transition metal starvation.

LIV-1 ZIP ectodomain shedding in prion-infected mice resembles cellular response to transition metal starvation.

Journal of molecular biology (2012-06-13)
Sepehr Ehsani, Ashkan Salehzadeh, Hairu Huo, William Reginold, Cosmin L Pocanschi, Hezhen Ren, Hansen Wang, Kelvin So, Christine Sato, Mohadeseh Mehrabian, Robert Strome, William S Trimble, Lili-Naz Hazrati, Ekaterina Rogaeva, David Westaway, George A Carlson, Gerold Schmitt-Ulms
ABSTRACT

We recently documented the co-purification of members of the LIV-1 subfamily of ZIP (Zrt-, Irt-like Protein) zinc transporters (LZTs) with the cellular prion protein (PrP(C)) and, subsequently, established that the prion gene family descended from an ancestral LZT gene. Here, we begin to address whether the study of LZTs can shed light on the biology of prion proteins in health and disease. Starting from an observation of an abnormal LZT immunoreactive band in prion-infected mice, subsequent cell biological analyses uncovered a surprisingly coordinated biology of ZIP10 (an LZT member) and prion proteins that involves alterations to N-glycosylation and endoproteolysis in response to manipulations to the extracellular divalent cation milieu. Starving cells of manganese or zinc, but not copper, causes shedding of the N1 fragment of PrP(C) and of the ectodomain of ZIP10. For ZIP10, this posttranslational biology is influenced by an interaction between its PrP-like ectodomain and a conserved metal coordination site within its C-terminal multi-spanning transmembrane domain. The transition metal starvation-induced cleavage of ZIP10 can be differentiated by an immature N-glycosylation signature from a constitutive cleavage targeting the same site. Data from this work provide a first glimpse into a hitherto neglected molecular biology that ties PrP to its LZT cousins and suggest that manganese or zinc starvation may contribute to the etiology of prion disease in mice.

MATERIALS
Product Number
Brand
Product Description

Sigma-Aldrich
Anti-GAPDH antibody, Mouse monoclonal, clone GAPDH-71.1, purified from hybridoma cell culture
Sigma-Aldrich
Diethylenetriaminepentaacetic acid, ≥99% (titration)