Mroj Alassaf scite author profile

Mroj Alassaf

3Publications

59Citation Statements Received

134Citation Statements Given

How they've been cited

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194

132

Affiliations

Fred Hutch Cancer Center, University of Wisconsin–Madison, Cape Town HVTN Immunology Laboratory / Hutchinson Centre Research Institute of South Africa

Publications

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Pregnancy-associated plasma protein-aa supports hair cell survival by regulating mitochondrial function

Alassaf

Daykin

Mathiaparanam

et al. 2019

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To support cell survival, mitochondria must balance energy production with oxidative stress. Inner ear hair cells are particularly vulnerable to oxidative stress; thus require tight mitochondrial regulation. We identified a novel molecular regulator of the hair cells’ mitochondria and survival: Pregnancy-associated plasma protein-aa (Pappaa). Hair cells in zebrafish pappaa mutants exhibit mitochondrial defects, including elevated mitochondrial calcium, transmembrane potential, and reactive oxygen species (ROS) production and reduced antioxidant expression. In pappaa mutants, hair cell death is enhanced by stimulation of mitochondrial calcium or ROS production and suppressed by a mitochondrial ROS scavenger. As a secreted metalloprotease, Pappaa stimulates extracellular insulin-like growth factor 1 (IGF1) bioavailability. We found that the pappaa mutants’ enhanced hair cell loss can be suppressed by stimulation of IGF1 availability and that Pappaa-IGF1 signaling acts post-developmentally to support hair cell survival. These results reveal Pappaa as an extracellular regulator of hair cell survival and essential mitochondrial function.

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Fat body phospholipid state dictates hunger-driven feeding behavior

Kelly

Alassaf

Sullivan

et al. 2022

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Diet-induced obesity leads to dysfunctional feeding behavior. However, the precise molecular nodes underlying diet-induced feeding motivation dysregulation are poorly understood. The fruit fly is a simple genetic model system yet displays significant evolutionary conservation to mammalian nutrient sensing and energy balance. Using a longitudinal high sugar regime in Drosophila, we sought to address how diet-induced changes in adipocyte lipid composition regulate feeding behavior. We observed that subjecting adult Drosophila to a prolonged high-sugar diet degrades the hunger-driven feeding response. Lipidomics analysis reveals that longitudinal exposure to high-sugar diets significantly alters whole-body phospholipid profiles. By performing a systematic genetic screen for phospholipid enzymes in adult fly adipocytes, we identify Pect as a critical regulator of hunger-driven feeding. Pect is a rate-limiting enzyme in the phosphatidylethanolamine (PE) biosynthesis pathway and the fly ortholog of human PCYT2. We show that disrupting Pect activity only in the Drosophila fat cells causes insulin resistance, dysregulated lipoprotein delivery to the brain, and a loss of hunger-driven feeding. Previously human studies have noted a correlation between PCYT2/Pect levels and clinical obesity. Now, our unbiased studies in Drosophila provide causative evidence for adipocyte Pect function in metabolic homeostasis. Altogether, we have uncovered that PE phospholipid homeostasis regulates hunger response.

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Author response: Pregnancy-associated plasma protein-aa supports hair cell survival by regulating mitochondrial function

Alassaf

Daykin

Mathiaparanam

et al. 2019

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Mroj Alassaf

Pregnancy-associated plasma protein-aa supports hair cell survival by regulating mitochondrial function

Fat body phospholipid state dictates hunger-driven feeding behavior

Author response: Pregnancy-associated plasma protein-aa supports hair cell survival by regulating mitochondrial function

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