OBJECTIVE: Redox signaling mediated by reversible oxidative cysteine thiol modifications is crucial for driving cellular adaptation to dynamic environmental changes, maintaining homeostasis, and ensuring proper function. This is particularly critical in pancreatic β-cells, which are highly metabolically active and play a specialized role in whole organism glucose homeostasis. Glucose stimulation in β-cells triggers signals leading to insulin secretion, including changes in ATP/ADP ratio and intracellular calcium levels. Additionally, lipid metabolism and reactive oxygen species (ROS) signaling are essential for β-cell function and health. METHODS: We employed IodoTMT isobaric labeling combined with tandem mass spectrometry to elucidate redox signaling pathways in pancreatic β-cells. RESULTS: Glucose stimulation significantly increases ROS levels in β-cells, leading to targeted reversible oxidation of proteins involved in key metabolic pathways such as glycolysis, the tricarboxylic acid (TCA) cycle, pyruvate metabolism, oxidative phosphorylation, protein processing in the endoplasmic reticulum (ER), and insulin secretion. Furthermore, the glucose-induced increase in reversible cysteine oxidation correlates with the presence of other post-translational modifications, including acetylation and phosphorylation. CONCLUSIONS: Proper functioning of pancreatic β-cell metabolism relies on fine-tuned regulation, achieved through a sophisticated system of diverse post-translational modifications that modulate protein functions. Our findings demonstrate that glucose induces the production of ROS in pancreatic β-cells, leading to targeted reversible oxidative modifications of proteins. Furthermore, protein activity is modulated by acetylation and phosphorylation, highlighting the complexity of the regulatory mechanisms in β-cell function.

• Klíčová slova
• Glucose, Pancreatic β-cells, Posttranslational modifications, ROS, Redox proteomics, Redox signaling,
• MeSH
• beta-buňky * metabolismus   účinky léků   MeSH
• fyziologická adaptace fyziologie   MeSH
• glukosa * metabolismus   MeSH
• lidé MeSH
• myši MeSH
• oxidace-redukce * MeSH
• posttranslační úpravy proteinů MeSH
• reaktivní formy kyslíku * metabolismus   MeSH
• sekrece inzulinu účinky léků   fyziologie   MeSH
• signální transdukce * fyziologie   MeSH
• zvířata MeSH
• Check Tag
• lidé MeSH
• myši MeSH
• zvířata MeSH
• Publikační typ
• časopisecké články MeSH
• Názvy látek
• glukosa * MeSH
• reaktivní formy kyslíku * MeSH

ERAS (enhanced recovery after surgery) represents a comprehensive strategy aimed at expediting patient recovery, reducing complications, and optimizing postoperative care. The ERAS protocol encompasses recommendations for the preoperative, perioperative, and postoperative phases of patient care. Implementation of the ERAS protocol yields a multitude of benefits for both patients and the healthcare system. It shortens hospital stays, diminishes the number and severity of postoperative complications, and enhances patient's quality of life. These factors contribute to healthcare cost sav-ings and improved bed turnover efficiency. Rigorous adherence to the ERAS protocol is paramount to achieving optimal outcomes. The comprehensive ERAS strategy thus marks a paradigm shift in perioperative care and emerges as an indispensable standard in liver and pancreatic surgery.

• Klíčová slova
• Enhanced Recovery After Surgery, complications, liver and pancreatic surgery, perioperative car, perioperative care,
• MeSH
• játra * chirurgie   MeSH
• klinické protokoly normy   MeSH
• lidé MeSH
• pankreas * chirurgie   MeSH
• perioperační péče normy   MeSH
• pooperační komplikace prevence a kontrola   MeSH
• urychlená pooperační rehabilitace * normy   MeSH
• Check Tag
• lidé MeSH
• Publikační typ
• časopisecké články MeSH
• přehledy MeSH

Significance: Glucose-induced lipid metabolism is essential for preserving functional β-cells, and its disruption is linked to type 2 diabetes (T2D) development. Lipids are an integral part of the cells playing an indispensable role as structural components, energy storage molecules, and signals. Recent Advances: Glucose presence significantly impacts lipid metabolism in β-cells, where fatty acids are primarily synthesized de novo and/or are transported from the bloodstream. This process is regulated by the glycerolipid/free fatty acid cycle, which includes lipogenic and lipolytic reactions producing metabolic coupling factors crucial for insulin secretion. Disrupted lipid metabolism involving oxidative stress and inflammation is a hallmark of T2D. Critical Issues: Lipid metabolism in β-cells is complex involving multiple simultaneous processes. Exact compartmentalization and quantification of lipid metabolism and its intermediates, especially in response to glucose or chronic hyperglycemia, are essential. Current research often uses non-physiological conditions, which may not accurately reflect in vivo situations. Future Directions: Identifying and quantifying individual steps and their signaling, including redox, within the complex fatty acid and lipid metabolic pathways as well as the metabolites formed during acute versus chronic glucose stimulation, will uncover the detailed mechanisms of glucose-stimulated insulin secretion. This knowledge is crucial for understanding T2D pathogenesis and identifying pharmacological targets to prevent this disease. Antioxid. Redox Signal. 41, 865-889.

• Klíčová slova
• diabetes, fatty acids, glucose-induced insulin secretion, glycerolipid/free fatty acid cycle, lipid metabolism,
• MeSH
• beta-buňky * metabolismus   MeSH
• diabetes mellitus 2. typu * metabolismus   MeSH
• glukosa metabolismus   MeSH
• inzulin metabolismus   MeSH
• lidé MeSH
• metabolismus lipidů * MeSH
• oxidační stres MeSH
• zvířata MeSH
• Check Tag
• lidé MeSH
• zvířata MeSH
• Publikační typ
• časopisecké články MeSH
• přehledy MeSH
• Názvy látek
• glukosa MeSH
• inzulin MeSH

Despite the fact that environmental pollution has been implicated in the global rise of diabetes, the research on the impact of emerging pollutants such as novel flame retardants remains limited. In line with the shift towards the use of non-animal approaches in toxicological testing, this study aimed to investigate the effects of two novel flame retardants tris(1,3-dichloro-2-propyl) phosphate (TDCIPP) and triphenyl phosphate (TPhP) in rat (INS1E) and human (NES2Y) pancreatic beta-cell lines. One-week exposure to 1 μM and 10 μM TDCIPP and TPhP altered intracellular insulin and proinsulin levels, but not the levels of secreted insulin (despite the presence of a statistically insignificant trend). The exposures also altered the protein expression of several factors involved in beta-cell metabolic pathways and signaling, including ATP citrate lyase, isocitrate dehydrogenase 1, perilipins, glucose transporters, ER stress-related factors, and antioxidant enzymes. This study has brought new and valuable insights into the toxicity of TDCIPP and TPhP on beta-cell function and revealed alterations that might impact insulin secretion after more extended exposure. It also adds to the scarce studies using in vitro pancreatic beta-cells models in toxicological testing, thereby promoting the development of non-animal testing strategy for identifying pro-diabetic effects of chemical pollutants.

• Klíčová slova
• Beta-cells, Diabetes, Insulin, Metabolic disease, TDCIPP, TPhP,
• MeSH
• beta-buňky * účinky léků   metabolismus   MeSH
• buněčné linie MeSH
• homeostáza * účinky léků   MeSH
• inzulin * metabolismus   MeSH
• krysa rodu Rattus MeSH
• lidé MeSH
• organofosfáty toxicita   MeSH
• organofosforové sloučeniny * toxicita   MeSH
• proinsulin metabolismus   MeSH
• retardanty hoření * toxicita   MeSH
• sekrece inzulinu účinky léků   MeSH
• zvířata MeSH
• Check Tag
• krysa rodu Rattus MeSH
• lidé MeSH
• zvířata MeSH
• Publikační typ
• časopisecké články MeSH
• Názvy látek
• inzulin * MeSH
• organofosfáty MeSH
• organofosforové sloučeniny * MeSH
• proinsulin MeSH
• retardanty hoření * MeSH
• triphenyl phosphate MeSH Prohlížeč
• tris(1,3-dichloro-2-propyl)phosphate MeSH Prohlížeč

BACKGROUND: Conservative treatment of chronic pancreatitis has only a limited effect in most patients. Surgery offers very good long-term results, even in the early stages of the disease. Unfortunately, only a minority of patients undergo surgical treatment. The aim of this work was to summarise the current treatment options for patients with an inflammatory mass of the pancreatic head. Data from patients in our study demonstrates that the surgery is a safe method, and here we compare the perioperative and early postoperative outcomes of patients who underwent a pancreatoduodenectomy and duodenum-preserving pancreatic head resection for chronic pancreatitis. METHODS: All patients who underwent a pancreaticoduodenectomy or a duodenum-preserving pancreatic head resection in our department between 2014 and 2022 were included in this study. Perioperative and early postoperative results were statistically analysed and compared. RESULTS: Thirty-eight pancreaticoduodenectomies and 23 duodenum-preserving pancreatic head resections were performed. The overall mortality was 3%, whereas the in-hospital mortality after pancreaticoduodenectomy was 5%. The mortality after duodenum-preserving pancreatic head resection was 0%. No statistically significant differences in the hospital stay, blood loss, and serious morbidity were found in either surgery. Operative time was significantly shorter in the duodenum-preserving pancreatic head resection group. CONCLUSIONS: Both pancreatoduodenectomy and duodenum-preserving pancreatic head resection are safe treatment options. Duodenum-preserving pancreatic head resection showed a statistically significant superiority in the operative time compared to pancreaticoduodenectomy. Although other monitored parameters did not show a statistically significant difference, the high risk of complications after pancreaticoduodenectomy with a mortality of 5%; maintenance of the duodenum and upper loop of jejunum, and lower risk of metabolic dysfunctions after duodenum-preserving pancreatic head resection may favour duodenum-preserving pancreatic head resection in recommended diagnoses. Attending physicians should be more encouraged to use a multidisciplinary approach to assess the suitability of surgical treatment in patients with chronic pancreatitis.

• Klíčová slova
• Beger, Chronic pancreatitis, Duodenum-preserving pancreatic head resection, Inflammatory pancreatic head mass, Pancreatic surgery, Pancreaticoduodenectomy,
• MeSH
• chronická pankreatitida * chirurgie   MeSH
• délka operace * MeSH
• délka pobytu statistika a číselné údaje   MeSH
• dospělí MeSH
• duodenum chirurgie   patologie   MeSH
• léčba šetřící orgány metody   MeSH
• lidé středního věku MeSH
• lidé MeSH
• mortalita v nemocnicích MeSH
• pankreas * chirurgie   patologie   MeSH
• pankreatektomie metody   škodlivé účinky   MeSH
• pankreatoduodenektomie * metody   škodlivé účinky   MeSH
• pooperační komplikace etiologie   epidemiologie   MeSH
• retrospektivní studie MeSH
• senioři MeSH
• výsledek terapie MeSH
• Check Tag
• dospělí MeSH
• lidé středního věku MeSH
• lidé MeSH
• mužské pohlaví MeSH
• senioři MeSH
• ženské pohlaví MeSH
• Publikační typ
• časopisecké články MeSH

We have recently developed a model of pancreatic islet transplantation into a decellularized pancreatic tail in rats. As the pancreatic skeletons completely lack endothelial cells, we investigated the effect of co-transplantation of mesenchymal stem cells and endothelial cells to promote revascularization. Decellularized matrix of the pancreatic tail was prepared by perfusion with Triton X-100, sodium dodecyl sulfate and DNase solution. Isolated pancreatic islets were infused into the skeletons via the splenic vein either alone, together with adipose tissue-derived mesenchymal stem cells (adMSCs), or with a combination of adMSCs and rat endothelial cells (rat ECs). Repopulated skeletons were transplanted into the subcutaneous tissue and explanted 9 days later for histological examination. Possible immunomodulatory effects of rat adMSCs on the survival of highly immunogenic green protein-expressing human ECs were also tested after their transplantation beneath the renal capsule. The immunomodulatory effects of adMSCs were also tested in vitro using the Invitrogen Click-iT EdU system. In the presence of adMSCs, the proliferation of splenocytes as a response to phytohaemagglutinin A was reduced by 47% (the stimulation index decreased from 1.7 to 0.9, P = 0.008) and the reaction to human ECs was reduced by 58% (the stimulation index decreased from 1.6 to 0.7, P = 0.03). Histological examination of the explanted skeletons seeded only with the islets showed their partial disintegration and only a rare presence of CD31-positive cells. However, skeletons seeded with a combination of islets and adMSCs showed preserved islet morphology and rich vascularity. In contrast, the addition of syngeneic rat ECs resulted in islet-cell necrosis with only few endothelial cells present. Live green fluorescence-positive endothelial cells transplanted either alone or with adMSCs were not detected beneath the renal capsule. Though the adMSCs significantly reduced in vitro proliferation stimulated by either phytohaemagglutinin A or by xenogeneic human ECs, in vivo co-transplanted adMSCs did not suppress the post-transplant immune response to xenogeneic ECs. Even in the syngeneic model, ECs co-transplantation did not lead to sufficient vascularization in the transplant area. In contrast, islet co-transplantation together with adMSCs successfully promoted the revascularization of extracellular matrix in the subcutaneous tissue.

• Klíčová slova
• Click-iT EdU, Mesenchymal stem cells, Pancreatic islets, Revascularization, Transplantation,
• MeSH
• decelularizovaná extracelulární matrix MeSH
• endoteliální buňky MeSH
• fyziologická neovaskularizace * MeSH
• krysa rodu Rattus MeSH
• kultivované buňky MeSH
• Langerhansovy ostrůvky * imunologie   MeSH
• lidé MeSH
• mezenchymální kmenové buňky * MeSH
• pankreas MeSH
• transplantace Langerhansových ostrůvků * metody   MeSH
• transplantace mezenchymálních kmenových buněk * metody   MeSH
• tuková tkáň * cytologie   MeSH
• zvířata MeSH
• Check Tag
• krysa rodu Rattus MeSH
• lidé MeSH
• mužské pohlaví MeSH
• zvířata MeSH
• Publikační typ
• časopisecké články MeSH
• Názvy látek
• decelularizovaná extracelulární matrix MeSH

BACKGROUND: Pancreaticoduodenectomy is associated with an incidence of postoperative complications of approximately 41%. One of the most severe complications is a postoperative pancreatic fistula. The exact cause of postoperative fistula development is still unknown, but it appears to be multifactorial. Proper perfusion of pancreatic remnant is essential for the healing of pancreaticojejunostomy. To date, there is no method to reliably evaluate the vascular supply of the remnant. One of the methods for the assessment of organ perfusion is the indocyanine green fluorescence. This study aims to determine if indocyanine green fluorescence is a reliable method to measure the perfusion of the post-resection pancreatic remnant. The secondary outcome is to determine if intraoperative evaluation of the vascular supply of the post-resection remnant may predict the increased risk of postoperative pancreatic fistula development. METHODS: This study is designed as a prospective, observational study. All consecutive patients undergoing open or robotic pancreaticoduodenectomies at our department during the 1st May 2024-31st December 2026 period will be enrolled. The exclusion criteria are an allergy to indocyanine green and refusal by the patient. The adequacy of the vascular supply of the post-resection pancreatic remnant will be intraoperatively evaluated using a fluorescence detector. Patients will be divided into two groups: Those with high risk of pancreatic fistula development and those with low risk. The incidence of pancreatic fistulas in both groups is to be compared. Postoperative data including morbidity, mortality, hospital stay, intensive care unit stay and postoperative fistula development will be collected. DISCUSSION: If an intraoperative assessment of the perfusion of post-resection pancreatic remnant using indocyanine green is proven to be a suitable method to estimate the increased risk of the pancreatic fistula, the list of the existing known risk factors could be expanded. In the most high-risk patients the modification of the surgical procedure could be considered. TRIAL REGISTRATION: Number: NCT06198400 ClinicalTrials.Gov. Date 08.01.2024.

• Klíčová slova
• ICG, Minimal invasive surgery, Pancreatic cancer, Pancreatic perfusion, Pancreatic surgery, Prospective study,
• MeSH
• fluorescence MeSH
• indokyanová zeleň * MeSH
• lidé MeSH
• pankreas krevní zásobení   chirurgie   MeSH
• pankreatická píštěl * etiologie   epidemiologie   MeSH
• pankreatoduodenektomie * škodlivé účinky   metody   MeSH
• pooperační komplikace * etiologie   diagnóza   MeSH
• pozorovací studie jako téma MeSH
• prospektivní studie MeSH
• Check Tag
• lidé MeSH
• mužské pohlaví MeSH
• ženské pohlaví MeSH
• Publikační typ
• časopisecké články MeSH
• protokol klinické studie MeSH
• Názvy látek
• indokyanová zeleň * MeSH

We asked whether acute redox signaling from mitochondria exists concomitantly to fatty acid- (FA-) stimulated insulin secretion (FASIS) at low glucose by pancreatic β-cells. We show that FA β-oxidation produces superoxide/H2O2, providing: i) mitochondria-to-plasma-membrane redox signaling, closing KATP-channels synergically with elevated ATP (substituting NADPH-oxidase-4-mediated H2O2-signaling upon glucose-stimulated insulin secretion); ii) activation of redox-sensitive phospholipase iPLA2γ/PNPLA8, cleaving mitochondrial FAs, enabling metabotropic GPR40 receptors to amplify insulin secretion (IS). At fasting glucose, palmitic acid stimulated IS in wt mice; palmitic, stearic, lauric, oleic, linoleic, and hexanoic acids also in perifused pancreatic islets (PIs), with suppressed 1st phases in iPLA2γ/PNPLA8-knockout mice/PIs. Extracellular/cytosolic H2O2-monitoring indicated knockout-independent redox signals, blocked by mitochondrial antioxidant SkQ1, etomoxir, CPT1 silencing, and catalase overexpression, all inhibiting FASIS, keeping ATP-sensitive K+-channels open, and diminishing cytosolic [Ca2+]-oscillations. FASIS in mice was a postprandially delayed physiological event. Redox signals of FA β-oxidation are thus documented, reaching the plasma membrane, essentially co-stimulating IS.

• Klíčová slova
• Fatty acid-stimulated insulin secretion, GPR40, Mitochondrial fatty acids, Pancreatic β-cells, Redox signaling, Redox-activated phospholipase iPLA2γ,
• MeSH
• beta-buňky * metabolismus   MeSH
• buněčná membrána * metabolismus   MeSH
• fosfolipasy A2, skupina VI metabolismus   genetika   MeSH
• glukosa metabolismus   MeSH
• inzulin metabolismus   MeSH
• mastné kyseliny * metabolismus   MeSH
• mitochondrie * metabolismus   MeSH
• myši knockoutované MeSH
• myši MeSH
• oxidace-redukce * MeSH
• peroxid vodíku metabolismus   MeSH
• receptory spřažené s G-proteiny MeSH
• sekrece inzulinu * MeSH
• signální transdukce * MeSH
• zvířata MeSH
• Check Tag
• myši MeSH
• zvířata MeSH
• Publikační typ
• časopisecké články MeSH
• Názvy látek
• Ffar1 protein, mouse MeSH Prohlížeč
• fosfolipasy A2, skupina VI MeSH
• glukosa MeSH
• inzulin MeSH
• mastné kyseliny * MeSH
• peroxid vodíku MeSH
• Pla2g6 protein, mouse MeSH Prohlížeč
• receptory spřažené s G-proteiny MeSH

Mitochondria (mt) represent the vital hub of the molecular physiology of the cell, being decision-makers in cell life/death and information signaling, including major redox regulations and redox signaling. Now we review recent advances in understanding mitochondrial redox homeostasis, including superoxide sources and H2O2 consumers, i.e., antioxidant mechanisms, as well as exemplar situations of physiological redox signaling, including the intramitochondrial one and mt-to-cytosol redox signals, which may be classified as acute and long-term signals. This review exemplifies the acute redox signals in hypoxic cell adaptation and upon insulin secretion in pancreatic beta-cells. We also show how metabolic changes under these circumstances are linked to mitochondrial cristae narrowing at higher intensity of ATP synthesis. Also, we will discuss major redox buffers, namely the peroxiredoxin system, which may also promote redox signaling. We will point out that pathological thresholds exist, specific for each cell type, above which the superoxide sources exceed regular antioxidant capacity and the concomitant harmful processes of oxidative stress subsequently initiate etiology of numerous diseases. The redox signaling may be impaired when sunk in such excessive pro-oxidative state.

• MeSH
• antioxidancia metabolismus   MeSH
• beta-buňky metabolismus   MeSH
• lidé MeSH
• mitochondrie * metabolismus   MeSH
• oxidace-redukce * MeSH
• oxidační stres fyziologie   MeSH
• signální transdukce fyziologie   MeSH
• zvířata MeSH
• Check Tag
• lidé MeSH
• zvířata MeSH
• Publikační typ
• časopisecké články MeSH
• přehledy MeSH
• Názvy látek
• antioxidancia MeSH

Redox status plays a multifaceted role in the intricate physiology and pathology of pancreatic beta-cells, the pivotal regulators of glucose homeostasis through insulin secretion. They are highly responsive to changes in metabolic cues where reactive oxygen species are part of it, all arising from nutritional intake. These molecules not only serve as crucial signaling intermediates for insulin secretion but also participate in the nuanced heterogeneity observed within the beta-cell population. A central aspect of beta-cell redox biology revolves around the localized production of hydrogen peroxide and the activity of NADPH oxidases which are tightly regulated and serve diverse physiological functions. Pancreatic beta-cells possess a remarkable array of antioxidant defense mechanisms although considered relatively modest compared to other cell types, are efficient in preserving redox balance within the cellular milieu. This intrinsic antioxidant machinery operates in concert with redox-sensitive signaling pathways, forming an elaborate redox relay system essential for beta-cell function and adaptation to changing metabolic demands. Perturbations in redox homeostasis can lead to oxidative stress exacerbating insulin secretion defect being a hallmark of type 2 diabetes. Understanding the interplay between redox signaling, oxidative stress, and beta-cell dysfunction is paramount for developing effective therapeutic strategies aimed at preserving beta-cell health and function in individuals with type 2 diabetes. Thus, unraveling the intricate complexities of beta-cell redox biology presents exciting avenues for advancing our understanding and treatment of metabolic disorders.

• MeSH
• beta-buňky * metabolismus   MeSH
• diabetes mellitus 2. typu metabolismus   MeSH
• homeostáza fyziologie   MeSH
• inzulin metabolismus   MeSH
• lidé MeSH
• oxidace-redukce * MeSH
• oxidační stres * fyziologie   MeSH
• reaktivní formy kyslíku metabolismus   MeSH
• sekrece inzulinu fyziologie   MeSH
• signální transdukce fyziologie   MeSH
• zvířata MeSH
• Check Tag
• lidé MeSH
• zvířata MeSH
• Publikační typ
• časopisecké články MeSH
• přehledy MeSH
• Názvy látek
• inzulin MeSH
• reaktivní formy kyslíku MeSH