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Overexpression of α-Klotho isoforms promotes distinct Effects on BDNF-Induced Alterations in Dendritic Morphology.

Authors
  • Cararo-Lopes, Marina Minto1, 2
  • Sadovnik, Ratchell1
  • Fu, Allen1
  • Suresh, Shradha1, 3
  • Gandu, Srinivasa1, 2
  • Firestein, Bonnie L4
  • 1 Department of Cell Biology and Neuroscience, Rutgers, The State University of New Jersey, Piscataway, NJ, USA. , (Jersey)
  • 2 Cell and Developmental Biology Graduate Program, Rutgers, The State University of New Jersey, Piscataway, NJ, USA. , (Jersey)
  • 3 Neuroscience Graduate Program, Rutgers, The State University of New Jersey, Piscataway, NJ, USA. , (Jersey)
  • 4 Department of Cell Biology and Neuroscience, Rutgers, The State University of New Jersey, Piscataway, NJ, USA. [email protected]. , (Jersey)
Type
Published Article
Journal
Molecular neurobiology
Publication Date
Nov 01, 2024
Volume
61
Issue
11
Pages
9155–9170
Identifiers
DOI: 10.1007/s12035-024-04171-y
PMID: 38589756
Source
Medline
Keywords
Language
English
License
Unknown

Abstract

α-Klotho (α-Kl) is a modulator of aging, neuroprotection, and cognition. Transcription of the Klotho gene produces two splice variants-a membrane protein (mKl), which can be cleaved and released into the extracellular milieu, and a truncated secreted form (sKl). Despite mounting evidence supporting a role for α-Kl in brain function, the specific roles of α-Kl isoforms in neuronal development remain elusive. Here, we examined α-Kl protein levels in rat brain and observed region-specific expression in the adult that differs between isoforms. In the developing hippocampus, levels of isoforms decrease after the third postnatal week, marking the end of the critical period for development. We overexpressed α-Kl isoforms in primary cultures of rat cortical neurons and evaluated effects on brain-derived neurotrophic factor (BDNF) signaling. Overexpression of either isoform attenuated BDNF-mediated signaling and reduced intracellular Ca2+ levels, with mKl promoting a greater effect. mKl or sKl overexpression in hippocampal neurons resulted in a partially overlapping reduction in secondary dendrite branching. Moreover, mKl overexpression increased primary dendrite number. BDNF treatment of neurons overexpressing sKl resulted in a dendrite branching phenotype similar to control neurons. In neurons overexpressing mKl, BDNF treatment restored branching of secondary and higher order dendrites close, but not distal, to the soma. Taken together, the data presented support the idea that sKl and mKl play distinct roles in neuronal development, and specifically, in dendrite morphogenesis. © 2024. The Author(s).

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