TY - JOUR
T1 - Tyrosinase mRNA is expressed in human substantia nigra
AU - Xu, Yimei
AU - Stokes, Alan H.
AU - Freeman, Willard M.
AU - Kumer, Sean C.
AU - Vogt, Brent A.
AU - Vrana, Kent E.
N1 - Funding Information:
We wish to thank Sheila L. Vrana (Bowman Gray School of Medicine) for valuable comments on this manuscript. This work was supported by USPHS Grants GM38931 (to K.E.V.). AGl1480 (to B.A.V.), T32DAO7246 (to S.C.K.) and MH/NS3 (to Harvard Brain Tissue Resource Center). Y.X. RJR-Leon Golberg post-doctoral toxicology fellow.
Funding Information:
(sense); primer B-3’. S’-GCTATCCCAGTAAGTGGACT-3’ tisense). Oligonucleotide synthesis was performed in the DNA synthesis core laboratory of the Cancer Center of Wake Forest University supported in part by NIH Grant CA12197. For the RT step, total RNA (1 pg) from the SN or the cerebelhtm was converted to a first-strand cDNA using the 3’-specific primer A (primer A-3’) and avian myeloblasto-sis virus (AMVJ-reverse transcriptase (Seikagaku America:
PY - 1997/4
Y1 - 1997/4
N2 - Dopamine acts, under appropriate conditions, as a selective neurotoxin. This toxicity is attributed to the autoxidation of the neurotransmitter into a reactive quinone that covalently modifies cellular macromolecules (i.e. proteins and nucleic acids). The oxidation of the catecholamine to a quinone is greatly accelerated by the enzyme tyrosinase. There is controversy, however, as to whether or not tyrosinase is expressed in human brain. In the present study, RT-PCR was utilized to demonstrate the presence of tyrosinase mRNA in post-mortem human brain tissues. Using gene-specific amplification primers, specific tyrosinase amplicons were detected following analysis of RNA from substantia nigra of four individuals. Analysis of cerebellar RNA from the same individuals produced no amplification products. Control reactions performed in the absence of reverse transcriptase failed to generate PCR products for any tissue tested. Three amplicons were subjected to direct DNA sequencing and all proved to be identical with tyrosinase sequences, thus obviating the possibility of amplification of a related gene. It is clear, therefore, that the tyrosinase gene is expressed in the human substantia nigra, lending support to previous studies describing tyrosinase-like activity and immunoreactive protein in the brain. This enzyme could be central to dopamine neurotoxicity as well as contribute to the neurodegeneration associated with Parkinson's disease.
AB - Dopamine acts, under appropriate conditions, as a selective neurotoxin. This toxicity is attributed to the autoxidation of the neurotransmitter into a reactive quinone that covalently modifies cellular macromolecules (i.e. proteins and nucleic acids). The oxidation of the catecholamine to a quinone is greatly accelerated by the enzyme tyrosinase. There is controversy, however, as to whether or not tyrosinase is expressed in human brain. In the present study, RT-PCR was utilized to demonstrate the presence of tyrosinase mRNA in post-mortem human brain tissues. Using gene-specific amplification primers, specific tyrosinase amplicons were detected following analysis of RNA from substantia nigra of four individuals. Analysis of cerebellar RNA from the same individuals produced no amplification products. Control reactions performed in the absence of reverse transcriptase failed to generate PCR products for any tissue tested. Three amplicons were subjected to direct DNA sequencing and all proved to be identical with tyrosinase sequences, thus obviating the possibility of amplification of a related gene. It is clear, therefore, that the tyrosinase gene is expressed in the human substantia nigra, lending support to previous studies describing tyrosinase-like activity and immunoreactive protein in the brain. This enzyme could be central to dopamine neurotoxicity as well as contribute to the neurodegeneration associated with Parkinson's disease.
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U2 - 10.1016/S0169-328X(96)00308-7
DO - 10.1016/S0169-328X(96)00308-7
M3 - Article
C2 - 9105685
AN - SCOPUS:0031127499
SN - 0169-328X
VL - 45
SP - 159
EP - 162
JO - Molecular Brain Research
JF - Molecular Brain Research
IS - 1
ER -