AI Article Synopsis
- The p75NTR neurotrophin receptor plays both helpful and harmful roles in nerve cell survival, but studying its effects has been complicated by the presence of different forms in mouse models.* -
- Researchers created a mutant rat that completely lacks the p75NTR protein using advanced genetic techniques, allowing for a clearer understanding of its function.* -
- These p75NTR-deficient rats are healthy and show no major brain structure changes, indicating that p75NTR is not essential for normal growth, but they offer a valuable model for exploring p75NTR's role in injury and repair processes.*
Article Abstract
The p75NTR neurotrophin receptor has positive and negative roles regulating cell survival in the nervous system. Unambiguous interpretation of p75NTR function in vivo has been complicated, however, by residual expression of alternate forms of p75NTR protein in initial p75NTR knock-out mouse models. As rats are the preferred rodent for studying brain and behaviour, and to simplify interpretation of the knock-out phenotype, we report here the generation of a mutant rat devoid of the p75NTR protein. TALEN-mediated recombination in embryonic stem cells (ESCs) was used to flank exon 2 of p75NTR with Lox P sites and produce transgenic rats carrying either un-recombined floxed p75NTR, or recombined, exon-2 deleted p75NTR alleles. Crossing p75NTR rats with a Cre-deleter strain efficiently removed exon 2 in vivo. Excision of exon 2 causes a frameshift after p75NTR Gly23 and eliminated p75NTR protein expression. Rats lacking p75NTR were healthy, fertile, and histological analysis did not reveal significant changes in cellular density or overall structure in their brains. p75NTR function is therefore largely dispensable for normal development, growth and basal homeostasis in the rat. However, the availability of constitutive and conditional p75NTR rats provides new opportunities to investigate specific roles of p75NTR upon injury and during tissue repair.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC11319401 | PMC |
| http://dx.doi.org/10.1007/s11248-024-00395-9 | DOI Listing |
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