Robert G. Audet scite author profile

Apolipoprotein (apo) E inhibits androgen production by ovarian theca cells. We found that apo E, as a synthetic peptide mimicked the full-size protein, induced theca and interstitial cell (TIC) apoptosis indicated by pyknotic cell morphology, increased DNA end-labeling (TUNEL), and DNA ladders. None of the low-density lipoprotein (LDL) receptor superfamily members were involved because the universal antagonist of these receptors, receptor-associated protein (RAP), did not block apo E-induced apoptosis. Furthermore, several apo E synthetic peptides that do not bind the LDL receptor did induce TIC apoptosis. Similar to apo E, apoptogenic agents such as ceramide and LY 294002, a phosphatidylinositol (PI) 3-kinase inhibitor, induced apoptosis and suppressed androstenedione production. However, apoptosis alone was not responsible for apo E suppression of androstenedione production because both insulin and IGF-I prevented apo E-induced apoptosis, but neither restored androstenedione production. Theca cells of atretic follicles express the greatest apo E mRNA, and here we show that cultured TIC produce apo E. When considered with the observation of TUNEL-positive theca cells in atretic follicles these results support our hypothesis that intraovarian apo E controls theca cell production of androgen as well as limiting the size of the theca cell compartment.

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Eukaryotic initiation factor 4A stimulates translation in microinjected Xenopus oocytes

Audet¹,

Goodchild²,

Richter³

1987

Developmental Biology

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Integration of choline geranate into electrospun protein scaffolds affords antimicrobial activity to biomaterials used for cutaneous wound healing

et al. 2020

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Wound healing attempts to maintain homeostasis in the wound while minimizing the risk of infection to the tissue by foreign agents, such as opportunistic bacterial pathogens. Biofilms established by these pathogens are a common cause of chronic infections that slow the healing process. Preparation of skin wound healing devices comprised of electrospun proteins associated with skin have been shown to accelerate the healing process relative to conventional wound dressings. In this work, we have developed electrospinning methods to incorporate the antimicrobial ionic liquid/deep eutectic solvent choline geranate (CAGE) into these devices. Integration of CAGE into the dressing material was verified via 1 H nuclear magnetic resonance spectrometry, and the effect on the material property of the resultant devices were assessed using scanning electron microscopy. CAGE-containing devices demonstrate a concentration-dependent inactivation of exogenously applied solutions of both gram-positive and gram-negative pathogens (Enterococcus sp and Pseudomonas aeruginosa, respectively), but maintain their ability to serve as a compatible platform for proliferation of human dermal neonatal fibroblasts.

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Improved Wound Closure Rates and Mechanical Properties Resembling Native Skin in Murine Diabetic Wounds Treated with a Tropoelastin and Collagen Wound Healing Device

Kellar

Diller

Tabor

et al. 2020

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Chronic wounds in patients suffering from type II diabetes mellitus (DMII) where wounds remain open with a complicated pathophysiology, healing, and recovery process is a public health concern. Normal wound healing plays a critical role in wound closure, restoration of mechanical properties, and the biochemical characteristics of the remodeled tissue. Biological scaffolds provide a tissue substitute to help facilitate wound healing by mimicking the extracellular matrix (ECM) of the dermis. In the current study an electrospun biomimetic scaffold, wound healing device (WHD), containing tropoelastin (TE) and collagen was synthesized to mimic the biochemical and mechanical characteristics of healthy human skin. The WHD was compared to a commercially available porcine small intestinal submucosa (SIS) matrix that has been used in both partial and full-thickness wounds, Oasis ® Wound Matrix. Using a diabetic murine model C57BKS.Cg-m+/+Leprdb/J mice (db/db) wound closure rates, histochemistry (CD31 and CD163), qPCR (GAPDH, TNF-α, NOS2, ARG1 and IL10), and mechanical testing of treated wound sites were evaluated. The WHD in a splinted, full thickness, diabetic murine wound healing model demonstrated skin organ regeneration, an enhanced rate of wound closure, decreased tissue inflammation, and a stronger and more durable remodeled tissue that more closely mimics native unwounded skin compared to the control device.

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Robert G. Audet

Topically delivered dissolved oxygen reduces inflammation and positively influences structural proteins in healthy intact human skin

Apolipoprotein E Is a Putative Autocrine Regulator of the Rat Ovarian Theca Cell Compartment

Eukaryotic initiation factor 4A stimulates translation in microinjected Xenopus oocytes

Integration of choline geranate into electrospun protein scaffolds affords antimicrobial activity to biomaterials used for cutaneous wound healing

Improved Wound Closure Rates and Mechanical Properties Resembling Native Skin in Murine Diabetic Wounds Treated with a Tropoelastin and Collagen Wound Healing Device

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