Kavya Achanta scite author profile

Base excision repair causes age-dependent accumulation of single-stranded DNA breaks that contribute to Parkinson disease pathology Graphical abstract Highlights d Incomplete base excision repair is a source of genomic stress during aging d The NTH-1 DNA glycosylase is a key mediator of agedependent genomic instability d Compromised NTH-1 activity promotes neuroprotection in PD nematodes d NTH-1 deficiency triggers LMD-3/JNK-1/SKN-1-dependent mitohormetic response

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ATM/ATR‐mediated phosphorylation of PALB2 promotes RAD51 function

Ahlskog

Larsen

Achanta

et al. 2016

EMBO Reports

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DNA damage activates the ATM and ATR kinases that coordinate checkpoint and DNA repair pathways. An essential step in homology-directed repair (HDR) of DNA breaks is the formation of RAD51 nucleofilaments mediated by PALB2-BRCA2; however, roles of ATM and ATR in this critical step of HDR are poorly understood. Here, we show that PALB2 is markedly phosphorylated in response to genotoxic stresses such as ionizing radiation and hydroxyurea. This response is mediated by the ATM and ATR kinases through three N-terminal S/Q-sites in PALB2, the consensus target sites for ATM and ATR. Importantly, a phospho-deficient PALB2 mutant is unable to support proper RAD51 foci formation, a key PALB2 regulated repair event, whereas a phospho-mimicking PALB2 version supports RAD51 foci formation. Moreover, phospho-deficient PALB2 is less potent in HDR than wild-type PALB2. Further, this mutation reveals a separation in PALB2 function, as the PALB2-dependent checkpoint response is normal in cells expressing the phosphodeficient PALB2 mutant. Collectively, our findings highlight a critical importance of PALB2 phosphorylation as a novel regulatory step in genome maintenance after genotoxic stress.

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MAFA and MAFB regulate exocytosis‐related genes in human β‐cells

et al. 2022

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MafB-dependent neurotransmitter signaling promotes β cell migration in the developing pancreas

Bsharat

Monni

Singh

et al. 2023

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Hormone secretion from pancreatic islets is essential for glucose homeostasis and loss or dysfunction of islet cells is a hallmark of type 2 diabetes. Maf transcription factors are critical for establishing and maintaining adult endocrine cell function. However, during pancreas development, MafB is not only expressed in insulin- and glucagon-producing cells, but also Neurog3+ endocrine progenitor cells suggesting additional functions in cell differentiation and islet formation. Here we report that MafB deficiency impairs β cell clustering and islet formation, but also coincides with loss of neurotransmitter and axon guidance receptor gene expression. Moreover, the observed loss of nicotinic receptor gene expression in human and mouse β cells implied that signaling through these receptors contributes to islet cell migration/formation. Inhibition of nicotinic receptor activity resulted in reduced β cell migration towards autonomic nerves and impaired β cell clustering. These findings highlight a novel function of MafB in controlling neuronal-directed signaling events required for islet formation.

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Alteration of mitochondrial homeostasis is an early event in a C. elegans model of human tauopathy

Palikaras

Achanta

Choi

et al. 2021

Aging

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Kavya Achanta

Base excision repair causes age-dependent accumulation of single-stranded DNA breaks that contribute to Parkinson disease pathology

ATM/ATR‐mediated phosphorylation of PALB2 promotes RAD51 function

MAFA and MAFB regulate exocytosis‐related genes in human β‐cells

MafB-dependent neurotransmitter signaling promotes β cell migration in the developing pancreas

Alteration of mitochondrial homeostasis is an early event in a C. elegans model of human tauopathy

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