Alec Jacobson scite author profile

Alec Jacobson

4Publications

15Citation Statements Received

307Citation Statements Given

How they've been cited

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248

305

Affiliations

The University of Texas MD Anderson Cancer Center, Northwestern University

Publications

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MicroRNA miR-7 Regulates Secretion of Insulin-Like Peptides

Agbu

Cassidy

Braverman

et al. 2019

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The insulin/insulin-like growth factor (IGF) pathway is essential for linking nutritional status to growth and metabolism. MicroRNAs (miRNAs) are short RNAs that are players in the regulation of this process. The miRNA miR-7 shows highly conserved expression in insulin-producing cells across the animal kingdom. However, its conserved functions in regulation of insulin-like peptides (ILPs) remain unknown. Using Drosophila as a model, we demonstrate that miR-7 limits ILP availability by inhibiting its production and secretion. Increasing miR-7 alters body growth and metabolism in an ILP-dependent manner, elevating circulating sugars and total body triglycerides, while decreasing animal growth. These effects are not due to direct targeting of ILP mRNA, but instead arise through alternate targets that affect the function of ILP-producing cells. The Drosophila F-actin capping protein alpha (CPA) is a direct target of miR-7, and knockdown of CPA in insulin-producing cells phenocopies the effects of miR-7 on ILP secretion. This regulation of CPA is conserved in mammals, with the mouse ortholog Capza1 also targeted by miR-7 in β-islet cells. Taken together, these results support a role for miR-7 regulation of an actin capping protein in insulin regulation, and highlight a conserved mechanism of action for an evolutionarily ancient microRNA.

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Pvr and distinct downstream signaling factors are required for hemocyte spreading and epidermal wound closure at Drosophila larval wound sites

Tsai

Wang

Jacobson

et al. 2021

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Tissue injury is typically accompanied by inflammation. In Drosophila melanogaster larvae, wound-induced inflammation involves adhesive capture of hemocytes at the wound surface followed by hemocyte spreading to assume a flat, lamellar morphology. The factors that mediate this cell spreading at the wound site are not known. Here, we discover a role for the platelet-derived growth factor/vascular endothelial growth factor-related receptor (Pvr) and its ligand, Pvf1, in blood cell spreading at the wound site. Pvr and Pvf1 are required for spreading in vivo and in an in vitro spreading assay where spreading can be directly induced by Pvf1 application or by constitutive Pvr activation. In an effort to identify factors that act downstream of Pvr, we performed a genetic screen in which select candidates were tested to determine if they could suppress the lethality of Pvr overexpression in the larval epidermis. Some of the suppressors identified are required for epidermal wound closure (WC), another Pvr-mediated wound response, some are required for hemocyte spreading in vitro, and some are required for both. One of the downstream factors, Mask, is also required for efficient wound-induced hemocyte spreading in vivo. Our data reveal that Pvr signaling is required for wound responses in hemocytes (cell spreading) and defines distinct downstream signaling factors that are required for either epidermal WC or hemocyte spreading.

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MicroRNA miR-7 regulates synthesis and secretion of insulin-like peptides

Agbu¹,

Cassidy²,

Braverman³

et al. 2019

Preprint

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1The insulin/IGF pathway is essential for linking nutritional status to growth and 2 metabolism. MicroRNAs (miRNAs) are short RNAs that are players in the regulation of 3 this process. The miRNA miR-7 shows highly conserved expression in insulin-producing 4 cells across the animal kingdom, however, its conserved functions in regulation of 5 insulin-like peptides (ILPs) remains unknown. Using Drosophila as a model, we 6 demonstrate that miR-7 limits ILP availability by inhibiting its production and secretion. 7

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Pvr and downstream signaling factors are required for spreading of Drosophila hemocytes at larval wound sites

Tsai

Jacobson

et al. 2021

Preprint

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Tissue injury is typically accompanied by inflammation. In Drosophila melanogaster, wound-induced inflammation involves adhesive capture of hemocytes at the wound surface followed by hemocyte spreading to assume a flat, lamellar morphology. The factors that mediate this cell spreading at the wound site are not known. Here, we discover a role for the Platelet-derived growth factor (PDGF)/ Vascular endothelial growth factor (VEGF)-related receptor (Pvr) and its ligand, Pvf1, in blood cell spreading at the wound site. Pvr and Pvf1 are required for spreading in vivo and in an in vitro spreading assay where spreading can be directly induced by Pvf1 application or by constitutive Pvr activation. In an effort to identify factors that act downstream of Pvr, we performed a genetic screen in which select candidates were tested to determine if they could suppress the lethality of Pvr overexpression in the larval epidermis. Some of the suppressors identified are required for epidermal wound closure, another Pvr-mediated wound response, some are required for hemocyte spreading in vitro, and some are required for both. One of the downstream factors, Mask, is also required for efficient wound-induced hemocyte spreading in vivo. Our data reveals that Pvr signaling is required for wound responses in hemocytes (cell spreading) and defines distinct downstream signaling factors that are required for either epidermal wound closure or hemocyte spreading.

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Alec Jacobson

MicroRNA miR-7 Regulates Secretion of Insulin-Like Peptides

Pvr and distinct downstream signaling factors are required for hemocyte spreading and epidermal wound closure at Drosophila larval wound sites

MicroRNA miR-7 regulates synthesis and secretion of insulin-like peptides

Pvr and downstream signaling factors are required for spreading of Drosophila hemocytes at larval wound sites

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