TY - JOUR
T1 - Differential gene expression during early development in brains of wildtype and biotinidase-deficient mice
AU - Brigolin, Christian
AU - McKenty, Nathan
AU - Pindolia, Kirit
AU - Wolf, Barry
N1 - Funding Information:
This work was funded by the Safra Research Fund at Henry Ford Hospital . We thank Dr. Alan Dombkowski at the Functional Genomics and Bioinformatics Core Facility at Wayne State University, Detroit, MI for his help with the analysis and helpful discussions.
Publisher Copyright:
© 2016 The Authors
PY - 2016/12/1
Y1 - 2016/12/1
N2 - Biotinidase deficiency is an autosomal recessively inherited disorder characterized by neurological and cutaneous abnormalities. Untreated individuals with biotinidase deficiency cannot recycle biotin from biocytin (N-biotinyl-ϵ-lysine), the proteolytic digestion product of protein-bound biotin. Biotin therapy can markedly resolve symptoms, or can prevent the development of symptoms if initiated early. To understand better the pathogenesis of the neurological problems in the disorder in humans, we have compared gene transcription changes during the first week post-birth in the brains of biotinidase-deficient, transgenic, knock-out mice at days 1 and 8 and compared to changes in wildtype mice at the same times. The knockout pups that were not supplemented with unconjugated biotin became symptomatic by day 8 and exhibiting failure to thrive. Wildtype pups remained asymptomatic under the same experimental conditions. We compared all four possible combinations and noted the most significant up- and down-regulated genes in the knockout animals at Day 8 compared to those at Day 1, reflecting the changes in gene expression over the first week of development. These alterations involved neurological development and immunological function pathways and provide some clues to avenues for further research. At this time, these preliminary analyses provide us with limited, but new information. However, with the development of new algorithms and programs examining various mechanisms and pathways in the central nervous system, these analyses may help us to understand better the role of biotinidase and the pathogenesis of biotinidase deficiency.
AB - Biotinidase deficiency is an autosomal recessively inherited disorder characterized by neurological and cutaneous abnormalities. Untreated individuals with biotinidase deficiency cannot recycle biotin from biocytin (N-biotinyl-ϵ-lysine), the proteolytic digestion product of protein-bound biotin. Biotin therapy can markedly resolve symptoms, or can prevent the development of symptoms if initiated early. To understand better the pathogenesis of the neurological problems in the disorder in humans, we have compared gene transcription changes during the first week post-birth in the brains of biotinidase-deficient, transgenic, knock-out mice at days 1 and 8 and compared to changes in wildtype mice at the same times. The knockout pups that were not supplemented with unconjugated biotin became symptomatic by day 8 and exhibiting failure to thrive. Wildtype pups remained asymptomatic under the same experimental conditions. We compared all four possible combinations and noted the most significant up- and down-regulated genes in the knockout animals at Day 8 compared to those at Day 1, reflecting the changes in gene expression over the first week of development. These alterations involved neurological development and immunological function pathways and provide some clues to avenues for further research. At this time, these preliminary analyses provide us with limited, but new information. However, with the development of new algorithms and programs examining various mechanisms and pathways in the central nervous system, these analyses may help us to understand better the role of biotinidase and the pathogenesis of biotinidase deficiency.
KW - Biotinidase deficiency
KW - Gene expression
KW - Gene transcription
KW - Knock-out mouse
KW - Mouse
KW - Neurological abnormalities
KW - Transgenic mouse
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U2 - 10.1016/j.ymgmr.2016.09.007
DO - 10.1016/j.ymgmr.2016.09.007
M3 - Article
C2 - 27752475
AN - SCOPUS:84991490389
SN - 2214-4269
VL - 9
SP - 35
EP - 41
JO - Molecular Genetics and Metabolism Reports
JF - Molecular Genetics and Metabolism Reports
ER -