Anagha Basargekar scite author profile

Anagha Basargekar

4Publications

47Citation Statements Received

134Citation Statements Given

How they've been cited

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124

122

Affiliations

Agharkar Research Institute, Indian Institute of Science Education and Research Pune

Publications

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A Presynaptic Regulatory System Acts Transsynaptically via Mon1 to Regulate Glutamate Receptor Levels in Drosophila

Deivasigamani

Basargekar

Shweta

et al. 2015

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Mon1 is an evolutionarily conserved protein involved in the conversion of Rab5 positive early endosomes to late endosomes through the recruitment of Rab7. We have identified a role for Drosophila Mon1 in regulating glutamate receptor levels at the larval neuromuscular junction. We generated mutants in Dmon1 through P-element excision. These mutants are short-lived with strong motor defects. At the synapse, the mutants show altered bouton morphology with several small supernumerary or satellite boutons surrounding a mature bouton; a significant increase in expression of GluRIIA and reduced expression of Bruchpilot. Neuronal knockdown of Dmon1 is sufficient to increase GluRIIA levels, suggesting its involvement in a presynaptic mechanism that regulates postsynaptic receptor levels. Ultrastructural analysis of mutant synapses reveals significantly smaller synaptic vesicles. Overexpression of vglut suppresses the defects in synaptic morphology and also downregulates GluRIIA levels in Dmon1 mutants, suggesting that homeostatic mechanisms are not affected in these mutants. We propose that DMon1 is part of a presynaptically regulated transsynaptic mechanism that regulates GluRIIA levels at the larval neuromuscular junction.

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Corrigendum to: FGFR/Heartless and Smog interact synergistically to negatively regulate Fog mediated G-protein coupled receptor signaling in the Drosophila nervous system

Kumari¹,

Basargekar²,

Ratnaparkhi³

2021

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FGFR/Heartless and Smog interact synergistically to negatively regulate Fog mediated G-protein coupled receptor signaling in the Drosophila nervous system

Shweta

Basargekar

Ratnaparkhi

2021

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Folded gastrulation (Fog) is a secreted ligand that signals through the G-protein-coupled receptors Mist and Smog and the G-protein Concertina to activate downstream effectors to elicit cell-shape change during gastrulation. In the embryonic central nervous system (CNS), Fog has roles in axon guidance and glial morphogenesis. However, the elements of the pathway as well as mechanisms required for transducing the signal in this context have not been determined. We find that while Concertina is essential for Fog signaling, Mist is dispensable and Smog, surprisingly, functions as a negative regulator of the pathway in the CNS. Interestingly Heartless, a fibroblast growth factor receptor, also functions as a negative regulator. Furthermore, both Heartless and Smog interact in a synergistic manner to regulate Fog signaling. Our results thus identify Heartless and Smog as part of a common regulatory pathway that functions to restrict Fog signaling in the embryonic CNS and highlights the context-specific role for Fog receptors during development.

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Dmon1andrab7interact to regulate glutamate receptor GluRIIA levels at the larvalDrosophilaneuromuscular junction

Basargekar

Yogi

Mushtaq³

et al. 2020

Preprint

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Regulation of post-synaptic receptors plays an important role in determining synaptic strength and plasticity. The Drosophila larval neuromuscular junction (nmj) has been used extensively as a model to understand some of these processes. In this context, we are interested in the role of Drosophila Monensin sensitive protein 1 (DMon1) in regulating glutamate receptor (GluRIIA) levels at the nmj. Dmon1 is an evolutionarily conserved protein which, in complex with CCZ1, regulates the conversion of early endosomes to late endosomes through recruitment of Rab7. C-terminal deletion mutants of Dmon1 (Dmon1Δ181) exhibit lethality. The escapers have a short life span and exhibit severe motor defects. At the nmj, these mutants show a defects in synaptic morphology and a strong increase in glutamate receptor GluRIIA levels. The mechanism by which Dmon1 regulates GluRIIA is unclear.In this study, we have described the characterization the mutation in an EMS mutant referred to as pog1 and demonstrate this mutant to be an allele of Dmon1. Further, we have examined the role of rab7 in regulation the of GluRIIA. We show that similar to Dmon1, knock-down of rab7 using RNAi in neurons, and not muscles, leads to an increase in GluRIIA. Loss of one copy each of Dmon1 with rab7 leads to a synergistic increase in receptor expression. Further, overexpression of an activated Rab7 can rescue the GluRIIA phenotype observed in Dmon1Δ181 mutants. Together, these results highlight a neuronal role for Rab7 in GluRIIA regulation and underscores the important of the endo-lysosomal pathway in this process.

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