Jacek Drobnik scite author profile

The regulatory influence of the pineal gland on superficial wound healing and collagen content is documented. The aim of the present study was to determine whether the pineal gland and its secretory product melatonin regulate collagen accumulation in the scar of the infarcted heart and to explain the mechanisms of its action. To induce myocardial infarction in rats the left coronary artery was ligated. Metoprolol at the dose of 0.2 mg/100 g body weight (b.w.) was injected intraperitoneally to inhibit melatonin secretion. Pinealectomy was performed on some animals. For the in vitro study, cells were isolated from the heart scar and cultured in Dulbecco's modified Eagle medium with 3% fetal calf serum and antibiotics. Collagen content was evaluated as hydroxyproline content according to the Woessner method. Melatonin subcutaneously injected into the rats at the doses of 30 microg/100 g or 60 microg/100 g b.w. increased collagen accumulation in the heart scar. The doses of 3 microg/100 g b.w. and 300 microg/100 g b.w. were not effective. Surgical and pharmacological pinealectomies had opposite effects and reduced collagen content in the scar. However, melatonin administration (60 microg/100 g b.w.) to pinealectomized rats reversed the effect of pinealectomy and normalized collagen levels in heart after infarction. Cells isolated from the heart scar were identified as myofibroblasts. Melatonin (10(-7)-10(-8) m) increased collagen accumulation in the cultures. Collagen accumulation in the scar of the infarcted heart is regulated by melatonin and it exerts effects directly on the myofibroblasts of the infarcted area. Therefore, melatonin-induced collagen accumulation in the infarcted heart could be considered as the event improving the tensile strength of the scar and retarding the development of complications.

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Effects of Nonwoven Mats of Di-O-butyrylchitin and Related Polymers on the Process of Wound Healing

Błasińska

Drobnik

2008

Biomacromolecules

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The aim of the study was to observe the effects of dibutyrylchitin (DBC) on the repair processes and to explain the mechanisms of its action in comparison with other dressing materials made of butyrylchitin (BC), regenerated chitin (RC), and chitosan. The results showed that DBC implanted subcutaneously to the rats increased weight of the granulation tissue. Increased cell number isolated from the wound and cultured on the DBC films was also revealed. The DBC was proved to reduce also the necrotic cells number in the culture. DBC elevates the glycosaminoglycans (GAG) level in the granulation tissue. The total collagen content in the wound was not influenced by all applied dressing materials. However, a low level of the poorly polymerized soluble collagen in the wounds treated with DBC and BC indicated better polymerization of the remaining part of that protein. Both DBC and chitosan increased the weight of granulation tissue. However, chitosan contrary to DBC lowered GAG content and increased water capacity in the wound. The study documents the beneficial influence of DBC on the repair, which could be explained by the modification of the extracellular matrix and cells number. The best effects were observed after application of DBC with [eta] DBC-1 = 1.75 dL/g.

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The stiffness‐controlled release of interleukin‐6 by cardiac fibroblasts is dependent on integrin α2β1

Gałdyszyńska

Bobrowska

Lekka

et al. 2020

J Cellular Molecular Medi

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The role of histamine in the regulation of the viability, proliferation and transforming growth factor β1 secretion of rat wound fibroblasts

Wolak

Bojanowska

Staszewska

et al. 2017

Pharmacological Reports

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Jacek Drobnik

Regulatory influence of melatonin on collagen accumulation in the infarcted heart scar

Effects of Nonwoven Mats of Di-O-butyrylchitin and Related Polymers on the Process of Wound Healing

The stiffness‐controlled release of interleukin‐6 by cardiac fibroblasts is dependent on integrin α2β1

The role of histamine in the regulation of the viability, proliferation and transforming growth factor β1 secretion of rat wound fibroblasts

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