2 курс / Нормальная физиология / ТЕХНОЛОГИИ_ДИАГНОСТИКИ_И_КОРРЕКЦИИ_ИММУНОМЕТАБОЛИЧЕСКИХ_НАРУШЕНИЙ

326.Melano I., Kuo L.L., Lo Y.C., Sung P.W., Tien N., Su W.C. Effects of Basic Amino Acids and Their Derivatives on SARS-CoV-2 and Influenza-A Virus Infection // Viruses. 2021. Vol. 13, no. 7. P. 1301.

327.Meydani S.N., Lewis E.D., Wu D. Perspective: Should Vitamin E Recommendations for

Older Adults Be Increased? // Adv. Nutr. 2018. Vol. 9, no. 5. P. 533-543.

328. Meydani S.N., Meydani M., Blumberg J.B., Leka L.S., Siber G., Loszewski R., Thompson C., Pedrosa M.C., Diamond R.D., Stollar B.D. Vitamin E supplementation and in vivo immune response in healthy elderly subjects. A randomized controlled trial // JAMA. 1997. Vol. 277, no. 17. P. 1380-1386.

329. Michalek R.D., Gerriets V.A., Jacobs S.R., Macintyre A.N., MacIver N.J., Mason E.F., Sullivan S.A., Nichols A.G., Rathmell J.C. Cutting edge: distinct glycolytic and lipid oxidative metabolic programs are essential for effector and regulatory CD4+ T cell subsets // J. Immunol. 2011. Vol. 186, no. 6. P. 3299-32303.

330. Michl J., Ohlbaum D.J., Silverstein S.C. 2-Deoxyglucose selectively inhibits Fc and complement receptor-mediated phagocytosis in mouse peritoneal macrophages. I. Description of the inhibitory effect // J. Exp. Med. 1976. Vol. 144, no. 6. P. 1465-1483.

331. Mikkelsen K., Prakash M.D., Kuol N., Nurgali K., Stojanovska L., Apostolopoulos V. AntiTumor Effects of Vitamin B2, B6 and B9 in Promonocytic Lymphoma Cells // Int. J. Mol. Sci. 2019. Vol. 20, no. 15. P. 3763.

332.Mikkelsen K., Stojanovska L., Prakash M., Apostolopoulos V. The effects of vitamin B on the immune/cytokine network and their involvement in depression // Maturitas. 2017. Vol. 96. P. 58-71.

333.Modiano J.F., Smith R. 3rd, Wojcieszyn J., Thomas J.S., Rosenbaum B.A., Ball C., Nicholds E.A., Anthony M.A., Barton C.L. The use of cytochemistry, immunophenotyping, flow cytometry, and in vitro differentiation to determine the ontogeny of a canine monoblastic leukemia // Vet. Clin. Pathol.‒1998.‒Vol. 27, no. 2.‒P. 40-49.

334.Molenaar R.J., Khurshed M., Hira V.V.V., Van Noorden C.J.F. Metabolic Mapping: Quantitative Enzyme Cytochemistry and Histochemistry to Determine the Activity of Dehydrogenases in Cells and Tissues // J. Vis. Exp.‒2018.‒no. 135.‒P. 56843.

335.Møller S.H., Wang L., Ho P.C. Metabolic programming in dendritic cells tailors immune responses and homeostasis // Cell. Mol. Immunol.‒2022.‒Vol. 19, no. 3.‒P. 370-383.

336.Monti N., Cucina A. Fibrosis: A Role for Vitamin D // Organisms Journal.‒2020.‒Vol. 4.‒P. 26-41.

337.Moon J.S., Lee S., Park M.A., Siempos I.I., Haslip M., Lee P.J., Yun M., Kim C.K., Howrylak J., Ryter S.W., Nakahira K., Choi A.M. UCP2-induced fatty acid synthase promotes NLRP3

inflammasome activation during sepsis // J. Clin. Invest. 2015. Vol. 125, no. 2. P. 665-680. 338. Morales-Borges R.H., Gonzalez M.J., Duconge J., Minich D.M. N-Acetyl Cysteine and

Glutathione in Health and Cancer-Pharmacogenomics, Research, and Clinical Practice: Hypothesis and Review // Altern. Ther. Health Med. 2022. Vol. 28, no. 7. P. 169-177.

339.Morisaki T., Morisaki T., Kubo M., Morisaki S., Nakamura Y., Onishi H. Lymph Nodes as Anti-Tumor Immunotherapeutic Tools: Intranodal-Tumor-Specific Antigen-Pulsed Dendritic Cell Vaccine Immunotherapy // Cancers (Basel).‒2022.‒Vol. 14, no. 10.‒P. 2438.

340.Morris S.M. Jr. Arginine Metabolism Revisited // J. Nutr.‒2016.‒Vol. 146, no. 12.‒P. 2579S2586S.

341.Mrityunjaya M., Pavithra V., Neelam R., Janhavi P., Halami P.M., Ravindra P.V. ImmuneBoosting, Antioxidant and Anti-inflammatory Food Supplements Targeting Pathogenesis of COVID-19 // Front. Immunol.‒2020.‒Vol. 11.‒570122.

342.Mulherkar T.H., Gómez D.J., Sandel G., Jain P. Co-Infection and Cancer: Host-Pathogen Interaction between Dendritic Cells and HIV-1, HTLV-1, and Other Oncogenic Viruses // Viruses.‒2022.‒Vol. 14, no. 9.‒P. 2037.

343.Mullen N.J., Singh P.K. Nucleotide metabolism: a pan-cancer metabolic dependency // Nat. Rev. Cancer.‒2023.‒Vol. 23, no. 5.‒P. 275-294.

440

https://t.me/medicina_free

344.Munn D.H., Mellor A.L. Indoleamine 2,3 dioxygenase and metabolic control of immune responses // Trends Immunol.‒2013.‒Vol. 34, no. 3.‒P. 137-143.

345.Muralidharan J., Kashyap S., Jacob M., Ollapally A., Idiculla J., Raj J.M., Thomas T., Kurpad A.V. The effect of l-arginine supplementation on amelioration of oxygen support in severe COVID-19 pneumonia // Clin. Nutr. ESPEN S. P.‒2022.‒Vol. 52.‒P. 431-435.

346.Muri J., Kopf M. The thioredoxin system: Balancing redox responses in immune cells and tumors // Eur. J. Immunol.‒2023.‒Vol. 53, no. 1.‒e2249948.

347.Muscogiuri G., Barrea L., Savastano S., Colao A. Nutritional recommendations for CoVID19 quarantine // Eur. J. Clin. Nutr.‒2020.‒Vol. 74, no. 6.‒P. 850-851.

348.Muscogiuri G., Barrea L., Scannapieco M., Di Somma C., Scacchi M., Aimaretti G., Savastano S., Colao A., Marzullo P. The lullaby of the sun: the role of vitamin D in sleep disturbance // Sleep Med.‒2019.‒Vol. 54.‒P. 262-265.

349.Nagai A., Matsumiya H., Hayashi M., Yasui S., Okamoto H., Konno K. Effects of nicotinamide and niacin on bleomycin-induced acute injury and subsequent fibrosis in hamster lungs // Exp. Lung Res.‒1994.‒Vol. 20, no. 4.‒P. 263-281.

350.Nakaya M., Xiao Y., Zhou X., Chang J.H., Chang M., Cheng X., Blonska M., Lin X., Sun S.C. Inflammatory T cell responses rely on amino acid transporter ASCT2 facilitation of

glutamine uptake and mTORC1 kinase activation // Immunity. 2014. Vol. 40, no. 5. P. 692705.

351.Nasrollahi H., Talepoor A.G., Saleh Z., Eshkevar Vakili M., Heydarinezhad P., Karami N., Noroozi M., Meri S., Kalantar K. Immune responses in mildly versus critically ill COVID-19 patients // Front. Immunol.‒2023.‒Vol. 14.‒1077236.

352.Navas L.E., Carnero A. Nicotinamide Adenine Dinucleotide (NAD) Metabolism as a Relevant Target in Cancer // Cells.‒2022.‒Vol. 11, no. 17.‒P. 2627.

353.Newsholme P., Curi R., Gordon S., Newsholme E.A. Metabolism of glucose, glutamine, long-

chain fatty acids and ketone bodies by murine macrophages // Biochem. J. 1986. Vol. 239, no. 1. P. 121-125.

354.Nguyen N.T., Hanieh H., Nakahama T., Kishimoto T. The roles of aryl hydrocarbon receptor in immune responses // Int. Immunol.‒2013.‒Vol. 25, no. 6.‒P. 335-343.

355.Nie X., Qian L., Sun R., Huang B., Dong X., Xiao Q., Zhang Q., Lu T., Yue L., Chen S., Li X., Sun Y., Li L., Xu L., Li Y., Yang M., Xue Z., Liang S., Ding X., Yuan C., Peng L., Liu W., Yi X., Lyu M., Xiao G., Xu X., Ge W., He J., Fan J., Wu J., Luo M., Chang X., Pan H., Cai X., Zhou J., Yu J., Gao H., Xie M., Wang S., Ruan G., Chen H., Su H., Mei H., Luo D., Zhao D., Xu F., Li Y., Zhu Y., Xia J., Hu Y., Guo T. Multi-organ proteomic landscape of COVID-19 autopsies // Cell.‒2021.‒Vol. 184, no. 3.‒P. 775-791.

356.Niedźwiedzka-Rystwej P., Tokarz-Deptuła B., Deptuła W. Reactivity of selected markers of innate and adaptive immunity in rabbits experimentally infected with antigenic variants of RHD (Lagovirus europaeus/GI.1a) // Vet. Res. Commun.‒2022.‒Vol. 46, no. 1.‒P. 233-242.

357.Oka S.I., Titus A.S., Zablocki D., Sadoshima J. Molecular properties and regulation of NAD+ kinase (NADK) // Redox. Biol.‒2023.‒Vol. 59.‒P. 102561.

358.O'Neill L.A., Kishton R.J., Rathmell J. A guide to immunometabolism for immunologists // Nat. Rev. Immunol.‒2016.‒Vol. 16, no. 9.‒P. 553-565.

359.Oristrell J., Oliva J.C., Casado E., Subirana I., Domínguez D., Toloba A., Balado A., Grau M. Vitamin D supplementation and COVID-19 risk: a population-based, cohort study // J. Endocrinol. Invest.‒2022.‒Vol. 45, no. 1.‒P. 167-179.

360.Ortega M.A., De Leon-Oliva D., García-Montero C., Fraile-Martinez O., Boaru D.L., de Castro A.V., Saez M.A., Lopez-Gonzalez L., Bujan J., Alvarez-Mon M.A., García-Honduvilla N., Diaz-Pedrero R., Alvarez-Mon M. Reframing the link between metabolism and NLRP3 inflammasome: therapeutic opportunities // Front. Immunol.‒2023.‒Vol. 14.‒1232629.

361.Oscanoa T.J., Amado J., Vidal X., Laird E., Ghashut R.A., Romero-Ortuno R. The relationship between the severity and mortality of SARS-CoV-2 infection and 25-hydroxyvitamin D concentration - a metaanalysis // Adv. Respir. Med.‒2021.‒Vol. 89, no. 2.‒P. 145-157.

441

https://t.me/medicina_free

362. O'Sullivan D., van der Windt G.J., Huang S.C., Curtis J.D., Chang C.H., Buck M.D., Qiu J., Smith A.M., Lam W.Y., DiPlato L.M., Hsu F.F., Birnbaum M.J., Pearce E.J., Pearce E.L. Memory CD8(+) T cells use cell-intrinsic lipolysis to support the metabolic programming necessary for development // Immunity. 2014. Vol. 41, no. 1. P. 75-88.

363.Outten C.E., Culotta V.C. A novel NADH kinase is the mitochondrial source of NADPH in Saccharomyces cerevisiae // EMBO J.‒2003.‒Vol. 22, no. 9.‒P. 2015-2024.

364.Padayatty S.J., Doppman J.L., Chang R., Wang Y., Gill J., Papanicolaou D.A., Levine M. Human adrenal glands secrete vitamin C in response to adrenocorticotrophic hormone // Am. J. Clin. Nutr.‒2007.‒Vol. 86, no. 1.‒Vol. 145-149.

365.Padgett L.E., Araujo D.J., Hedrick C.C., Olingy C.E. Functional crosstalk between T cells and monocytes in cancer and atherosclerosis // J. Leukoc. Biol.‒2020.‒Vol. 108, no. 1.‒P. 297-308.

366.Palazon A., Goldrath A.W., Nizet V., Johnson R.S. HIF transcription factors, inflammation, and immunity // Immunity.‒2014.‒Vol. 41, no. 4.‒P. 518-528.

367.Palmer C.S., Cherry C.L., Sada-Ovalle I., Singh A., Crowe S.M. Glucose Metabolism in T Cells and Monocytes: New Perspectives in HIV Pathogenesis // EBioMedicine.‒2016.‒Vol. 6.‒ P. 31-41.

368.Palsson-McDermott E.M., Curtis A.M., Goel G., Lauterbach M.A., Sheedy F.J., Gleeson L.E., van den Bosch M.W., Quinn S.R., Domingo-Fernandez R., Johnston D.G., Jiang J.K., Israelsen W.J., Keane J., Thomas C., Clish C., Vander Heiden M., Xavier R.J., O'Neill L.A. Pyruvate kinase M2 regulates Hif-1α activity and IL-1β induction and is a critical determinant of the warburg

effect in LPS-activated macrophages // Cell. Metab. 2015. Vol. 21, no. 1. P. 65-80.

369.Papaneophytou C., Zervou M.E., Theofanous A. Optimization of a Colorimetric Assay to Determine Lactate Dehydrogenase B Activity Using Design of Experiments // SLAS Discov.‒ 2021.‒Vol. 26, no. 3.‒P. 383-399.

370.Pastor-Anglada M., Pérez-Torras S. Emerging Roles of Nucleoside Transporters // Front. Pharmacol.‒2018.‒Vol. 9.‒P. 606.

371.Patel J.J., Miller K.R., Rosenthal C., Rosenthal M.D. When Is It Appropriate to Use Arginine in Critical Illness? // Nutr. Clin. Pract.‒2016.‒Vol. 31, no. 4.‒P. 438-444.

372.Pedrazini M.C., da Silva M.H., Groppo F.C. L-lysine: Its antagonism with L-arginine in controlling viral infection. Narrative literature review // Br. J. Clin. Pharmacol.‒2022.‒Vol. 88, no. 11.‒P. 4708-4723.

373.Pei R., Feng J., Zhang Y., Sun H., Li L., Yang X., He J., Xiao S, Xiong J., Lin Y., Wen K., Zhou H., Chen J., Rong Z., Chen X. Host metabolism dysregulation and cell tropism identification in human airway and alveolar organoids upon SARS-CoV-2 infection // Protein Cell.‒2021.‒Vol. 12, no. 9.‒P. 717-733.

374.Peng J.J., Wang L., Li Z., Ku C.L., Ho P.C. Metabolic challenges and interventions in CAR T cell therapy // Sci. Immunol.‒2023.‒Vol. 8, no. 82.‒eabq3016.

375.Peng T., Du S.Y., Son M., Diamond B. HIF-1α is a negative regulator of interferon regulatory factors: Implications for interferon production by hypoxic monocytes // Proc. Natl. Acad. Sci. USA.‒2021.‒Vol. 118, no. 26.‒e2106017118.

376.Pensato U., Amore G., Muccioli L., Sammali S., Rondelli F., Rinaldi R., D'Angelo R., Nicodemo M., Mondini S., Sambati L., Asioli G.M., Rossi S., Santoro R., Cretella L., Ferrari S., Spinardi L., Faccioli L., Fanti S., Paccagnella A., Pierucci E., Casadei B., Pellegrini C., Zinzani P.L., Bonafè M., Cortelli P., Bonifazi F., Guarino M. CAR t-cell therapy in BOlogNaNEUrotoxicity TReatment and Assessment in Lymphoma (CARBON-NEUTRAL): proposed protocol and results from an Italian study // J. Neurol.‒2023.‒Vol. 270, no. 5.‒P. 2659-2673.

377.Pereira M., Dantas Damascena A., Galvão Azevedo L.M., de Almeida Oliveira T., da Mota Santana J. Vitamin D deficiency aggravates COVID-19: systematic review and meta-analysis // Crit. Rev. Food Sci. Nutr.‒2022.‒Vol. 62, no. 5.‒P. 1308-1316.

378.Perl A., Hanczko R., Telarico T., Oaks Z., Landas S. Oxidative stress, inflammation and carcinogenesis are controlled through the pentose phosphate pathway by transaldolase // Trends Mol. Med.‒2011.‒Vol. 17, no. 7.‒P. 395-403.

442

https://t.me/medicina_free

379.Pes G.M., Dore M.P. Acquired Glucose-6-Phosphate Dehydrogenase Deficiency // J. Clin. Med.‒2022.‒Vol. 11, no. 22.‒P. 6689.

380.Pizzini A., Aichner M., Sahanic S., Böhm A., Egger A., Hoermann G., Kurz K., Widmann G., Bellmann-Weiler R., Weiss G., Tancevski I., Sonnweber T., Löffler-Ragg J. Impact of Vitamin D Deficiency on COVID-19-A Prospective Analysis from the CovILD Registry // Nutrients.‒ 2020.‒Vol. 12, no. 9.‒P. 2775.

381.Platten M., Nollen E.A.A., Röhrig U.F., Fallarino F., Opitz C.A. Tryptophan metabolism as a common therapeutic target in cancer, neurodegeneration and beyond // Nat. Rev. Drug Discov.‒ 2019.‒Vol. 18, no. 5.‒Vol. 379-401.

382.Poorebrahim M., Melief J., Pico de Coaña Y., L Wickström S., Cid-Arregui A., Kiessling R. Counteracting CAR T cell dysfunction // Oncogene.‒2021.‒Vol. 40, no. 2.‒P. 421-435.

383.Prendergast G.C., Malachowski W.P., DuHadaway J.B., Muller A.J. Discovery of IDO1 Inhibitors: From Bench to Bedside // Cancer Res.‒2017.‒Vol. 77, no. 24.‒P. 6795-6811.

384.Pyridoxal 5'-phosphate to mitigate immune dysregulation and coagulopathy in COVID-19 // Preprints.org 2020, 2020050144. https://doi.org/10.20944/preprints202005.0144.v1

385.Qi F., Zhang W., Huang .J, Fu L., Zhao J. Single-Cell RNA Sequencing Analysis of the Immunometabolic Rewiring and Immunopathogenesis of Coronavirus Disease 2019 // Front. Immunol.‒2021.‒Vol. 12.‒651656.

386.Rad S.M.A.H., Halpin J.C., Tawinwung S., Suppipat K., Hirankarn N., McLellan A.D. MicroRNA-mediated metabolic reprogramming of chimeric antigen receptor T cells // Immunol. Cell Biol.‒2022.‒Vol. 100, no. 6.‒P. 424-439.

387.Ragan I., Hartson L., Pidcoke H., Bowen R., Goodrich R. Pathogen reduction of SARS-CoV- 2 virus in plasma and whole blood using riboflavin and UV light // PLoS One.‒2020.‒Vol. 15, no. 5.‒e0233947.

388.Ramirez A.M., Wongtrakool C., Welch T., Steinmeyer A., Zügel U., Roman J. Vitamin D inhibition of pro-fibrotic effects of transforming growth factor beta1 in lung fibroblasts and epithelial cells // J. Steroid. Biochem. Mol. Biol.‒2010.‒Vol. 118, no. 3.‒P. 142-150.

389.Ramos Hernández C., Mouronte-Roibás C., Barros-Dios J.M., Fernández-Villar A., RuanoRavina A. Deletion of GSTM1 and GSTT1 genes and lung cancer survival: a systematic review

//Tumori. 2017. Vol. 103, no. 4. P. 338-344.

390.Rath M., Müller I., Kropf P., Closs E.I., Munder M. Metabolism via Arginase or Nitric Oxide

Synthase: Two Competing Arginine Pathways in Macrophages // Front. Immunol. 2014. Vol. 5. 532.

391.Ratledge C. The role of malic enzyme as the provider of NADPH in oleaginous microorganisms: a reappraisal and unsolved problems // Biotechnol. Lett.‒2014.‒Vol. 36, no. 8.‒ P. 1557-1568.

392.Raveendran A.V., Misra A. Post COVID-19 Syndrome ("Long COVID") and Diabetes: Challenges in Diagnosis and Management // Diabetes Metab. Syndr.‒2021.‒Vol. 15, no. 5.‒ 102235.

393.Rees C.A., Rostad C.A., Mantus G., Anderson E.J., Chahroudi A., Jaggi P., Wrammert J., Ochoa J.B., Ochoa A., Basu R.K., Heilman S., Harris F., Lapp S.A., Hussaini L., Vos M.B., Brown L.A., Morris C.R. Altered amino acid profile in patients with SARS-CoV-2 infection // Proc. Natl. Acad. Sci. USA.‒2021.‒Vol. 118, no. 25.‒e2101708118.

394.Reijmen E., De Mey S., De Mey W., Gevaert T., De Ridder K., Locy H., Martens S., De Blay E., Bouwens L., Debie P., Breckpot K., De Grève J., De Ridder M., Goyvaerts C. Fractionated Radiation Severely Reduces the Number of CD8+ T Cells and Mature Antigen Presenting Cells Within Lung Tumors // Int. J. Radiat. Oncol. Biol. Phys.‒2021.‒Vol. 111, no. 1.‒P. 272-283.

395.Reizine F., Lesouhaitier M., Gregoire M., Pinceaux K., Gacouin A., Maamar A., Painvin B., Camus C., Le Tulzo Y., Tattevin P., Revest M., Le Bot A., Ballerie A., Cador-Rousseau B., Lederlin M., Lebouvier T., Launey Y., Latour M., Verdy C., Rossille D., Le Gallou S., Dulong J., Moreau C., Bendavid C., Roussel M., Cogne M., Tarte K., Tadié J.M. SARS-CoV-2-Induced

443

https://t.me/medicina_free

413.Sanchez E.L., Lagunoff M. Viral activation of cellular metabolism // Virology.‒2015.‒479- 480:609-18.

414.Sanchez E.L., Pulliam T.H., Dimaio T.A., Thalhofer A.B., Delgado T., Lagunoff M. Glycolysis, Glutaminolysis, and Fatty Acid Synthesis Are Required for Distinct Stages of Kaposi's Sarcoma-Associated Herpesvirus Lytic Replication // J. Virol.‒2017.‒Vol. 91, no. 10.‒ e02237-16.

415.Sanders D.W., Jumper C.C., Ackerman P.J., Bracha D., Donlic A., Kim H., Kenney D., Castello-Serrano I., Suzuki S., Tamura T., Tavares A.H., Saeed M., Holehouse A.S., Ploss A., Levental I., Douam F., Padera R.F., Levy B.D., Brangwynne C.P. SARS-CoV-2 requires cholesterol for viral entry and pathological syncytia formation // Elife.‒2021.‒Vol. 10.‒e65962.

416.San-Millán I., Brooks G.A. Reexamining cancer metabolism: lactate production for carcinogenesis could be the purpose and explanation of the Warburg Effect // Carcinogenesis.‒ 2017.‒Vol. 38, no. 2.‒P. 119-133.

417.Sanseverino I., Rinaldi A.O., Purificato C., Cortese A., Millefiorini E., Gauzzi M.C. 1,25(OH)2D3 Differently Modulates the Secretory Activity of IFN-DC and IL4-DC: A Study in Cells from Healthy Donors and MS Patients // Int. J. Mol. Sci.‒2023.‒Vol. 24, no. 7.‒P. 6717.

418.Santini S.M., Lapenta C., Donati S., Spadaro F., Belardelli F., Ferrantini M. Interferon-α- conditioned human monocytes combine a Th1-orienting attitude with the induction of autologous Th17 responses: role of IL-23 and IL-12 // PLoS One.‒Vol. 6, no. 2.‒e17364.

419.Sarno G., Russo E., Ferrara A., Cerbone V., Villa R., De Rosa P. COVID-19 Infection in Kidney Transplant Recipients in Italy: Management Issues in a Kidney Transplant Center // Exp. Clin. Transplant.‒2021.‒Vol. 19, no. 3.‒P. 284-286.

420.Sarohan A.R. COVID-19: Endogenous Retinoic Acid Theory and Retinoic Acid Depletion Syndrome // Med. Hypotheses.‒2020.‒Vol. 144.‒P. 110250.

421.Savanelli M.C., Scarano E., Muscogiuri G., Barrea L., Vuolo L., Rubino M., Savastano S., Colao A., Di Somma C. Cardiovascular risk in adult hypopituitaric patients with growth hormone deficiency: is there a role for vitamin D? // Endocrine.‒2016.‒Vol. 52, no. 1.‒P. 111-119.

422.Savchenko A.A., Kudryavtsev I.V.; Isakov D.V., Sadowski I.S., Belenyuk V.D., Borisov A.G. Recombinant Human Interleukin-2 Corrects NK Cell Phenotype and Functional Activity in Patients with Post-COVID Syndrome // Pharmaceuticals.‒2023.‒Vol. 16.‒P. 537.

423.Savchenko A.A., Tikhonova E., Kudryavtsev I., Kudlay D., Korsunsky I., Beleniuk V., Borisov A. TREC/KREC Levels and T and B Lymphocyte Subpopulations in COVID-19 Patients at Different Stages of the Disease. // Viruses.‒2022.‒Vol. 14.‒P. 646.

424.Schank M., Zhao J., Wang L., Nguyen L.N.T., Zhang Y., Wu X.Y., Zhang J., Jiang Y., Ning S., El Gazzar M., Moorman J.P., Yao Z.Q. ROS-Induced Mitochondrial Dysfunction in CD4 T Cells from ART-Controlled People Living with HIV // Viruses.‒2023.‒Vol. 15, no. 5.‒P. 1061.

425.Schild Y., Bosserhoff J., Droege F., Littwitz-Salomon E., Fandrey J., Wrobeln A. HypoxiaInducible Factor-Prolyl Hydroxylase Inhibitor Improves Leukocyte Energy Metabolism in Hereditary Hemorrhagic Telangiectasia // Life (Basel).‒2023.‒Vol. 13, no. 8.‒P. 1708.

426.Schloss J.V. Nutritional deficiencies that may predispose to long COVID // Inflammopharmacology.‒2023.‒Vol. 31, no. 2.‒P. 573-583.

427.Schroten H., Spors B., Hucke C., Stins M., Kim K.S., Adam R., Däubener W. Potential role of human brain microvascular endothelial cells in the pathogenesis of brain abscess: inhibition of Staphylococcus aureus by activation of indoleamine 2,3-dioxygenase //

Neuropediatrics. 2001. Vol. 32, no. 4. P. 206-210.

428.Secord E., Hartog N.L. Review of Treatment for Adenosine Deaminase Deficiency (ADA) Severe Combined Immunodeficiency (SCID) // Ther. Clin. Risk Manag.‒2022.‒Vol. 18.‒P. 939944.

429.Sen C.K., Packer L. Antioxidant and redox regulation of gene transcription // FASEB J.‒ 1996.‒Vol. 10, no. 7.‒P. 709-720.

430.Senol A., Orhan D. The relationship of lipid profile with severity of disease and mortality in patients with COVID-1 // Bratisl. Lek. Listy.‒2022.‒Vol. 123, no. 8.‒P. 589-593.

445

https://t.me/medicina_free

431.Shaath H., Alajez N.M. Computational and Transcriptome Analyses Revealed Preferential Induction of Chemotaxis and Lipid Synthesis by SARS-CoV-2 // Biology (Basel).‒2020.‒Vol. 9, no. 9.‒P. 260.

432.Shabani S., Ghahroodi F.N., Khalesi B., Pourzardosht N., Hashemi Z.S., Khalili S. Molecular mechanisms and therapeutic effects of different vitamins and minerals in COVID-19 patients // J. Trace Elem. Med. Biol.‒2022.‒Vol. 73.‒127044.

433.Shakoor H., Feehan J., Al Dhaheri A.S., Ali H.I., Platat C., Ismail L.C., Apostolopoulos V., Stojanovska L. Immune-boosting role of vitamins D, C, E, zinc, selenium and omega-3 fatty acids: Could they help against COVID-19? // Maturitas.‒2021.‒Vol. 143.‒P. 1-9.

434.Shakoor H., Feehan J., Mikkelsen K., Al Dhaheri A.S., Ali H.I., Platat C., Ismail L.C., Stojanovska L., Apostolopoulos V. Be well: A potential role for vitamin B in COVID-19 // Maturitas.‒2021.‒Vol. 144.‒P. 108-111.

435.Shams S., Azari-Yam A., Safavi M., Zamani Z., Sotoudeh-Anvari M., Sharifzadeh Ekbatani M., Haghi-Ashtiani M.T., Mozafari F., Yaghmaie B., Shafeghat L. Alteration of Plasma Amino Acid Concentrations in Iranian Children with COVID-19// Int. J. Pediatr.‒2022.‒Vol. 2022.‒ 9390327.

436.Shea M.K., Booth S.L. Concepts and Controversies in Evaluating Vitamin K Status in Population-Based Studies // Nutrients.‒2016.‒Vol. 8, no. 1.‒P. 8.

437.Shen B., Yi X., Sun Y., Bi X., Du J., Zhang C., Quan S., Zhang F., Sun R., Qian L., Ge W., Liu W., Liang S., Chen H., Zhang Y., Li J., Xu J., He Z., Chen B., Wang J., Yan H., Zheng Y., Wang D., Zhu J., Kong Z., Kang Z., Liang X., Ding X., Ruan G., Xiang N., Cai X., Gao H., Li L., Li S., Xiao Q., Lu T., Zhu Y., Liu H., Chen H., Guo T. Proteomic and Metabolomic Characterization of COVID-19 Patient Sera // Cell.‒2020.‒Vol. 182, no. 1.‒P. 59-72.e15.

438.Shen T., Wang T. Metabolic Reprogramming in COVID-19 // Int. J. Mol. Sci.‒2021.‒Vol. 22.‒P. 11475.

439.Shesternya P.A., Savchenko A.A., Gritsenko O.D., Vasileva A.O., Kudryavtsev I.V., Masterova A.A., Isakov D.V., Borisov A.G. Features of peripheral blood Th-cell subset composition and serum cytokine level in patients with activity-driven ankylosing spondylitis // Pharmaceuticals.‒2022.‒Vol.15, no. 11.‒P.1370.

440.Sheybani Z., Dokoohaki M.H., Negahdaripour M., Dehdashti M., Zolghadr H., Moghadami M., et al. The role of folic acid in the management of respiratory disease caused by COVID-19 // 2020. https://doi.org/10.26434/chemrxiv.12034980.v1

441.Shi L.Z., Wang R., Huang G., Vogel P., Neale G., Green D.R., Chi H. HIF1alpha-dependent glycolytic pathway orchestrates a metabolic checkpoint for the differentiation of TH17 and Treg cells // J. Exp. Med.‒2011.‒Vol. 208, no. 7.‒P. 1367-1376.

442.Shima T., Nakashima A., Yasuda I., Ushijima A., Inada K., Tsuda S., Yoshino O., Tomura M., Saito S. Uterine CD11c+ cells induce the development of paternal antigen-specific Tregs via seminal plasma priming // J. Reprod. Immunol.‒2020.‒Vol. 141.‒103165.

443.Shioi A., Morioka T., Shoji T., Emoto M. The Inhibitory Roles of Vitamin K in Progression of Vascular Calcification // Nutrients.‒2020.‒Vol. 12, no. 2.‒P. 583.

444.Shirai T., Nazarewicz R.R., Wallis B.B., Yanes R.E., Watanabe R., Hilhorst M., Tian L., Harrison D.G., Giacomini J.C., Assimes T.L., Goronzy J.J., Weyand C.M. The glycolytic enzyme PKM2 bridges metabolic and inflammatory dysfunction in coronary artery disease // J. Exp.

Med. 2016. Vol. 213, no. 3. P. 337-354.

445.Signa S., Bertoni A., Penco F., Caorsi R., Cafaro A., Cangemi G., Volpi S., Gattorno M., Schena F. Adenosine Deaminase 2 Deficiency (DADA2): A Crosstalk Between Innate and Adaptive Immunity // Front. Immunol.‒2022.‒Vol. 13.‒935957.

446.Silalahi E.R., Wibowo N., Prasmusinto D., Djuwita R., Rengganis I., Mose J.C. Decidual dendritic cells 10 and CD4+CD25+FOXP3 regulatory T cell in preeclampsia and their correlation with nutritional factors in pathomechanism of immune rejection in pregnancy // J. Reprod. Immunol.‒2022.‒Vol. 154.‒103746.

446

https://t.me/medicina_free

447.Simula L., Ollivier E., Icard P., Donnadieu E. Immune Checkpoint Proteins, Metabolism and Adhesion Molecules: Overlooked Determinants of CAR T-Cell Migration? // Cells.‒2022.‒Vol. 11, no. 11.‒P. 1854.

448.Sirokmány G., Donkó Á., Geiszt M. Nox/Duox Family of NADPH Oxidases: Lessons from Knockout Mouse Models // Trends Pharmacol. Sci.‒2016.‒Vol. 37, no. 4.‒P. 318-327.

449.Smirnova O.V., Manchouk V.T., Savchenko A.A. Immune status & enzymes activity in blood lymphocytes in adult patients at different stages of acute lymphoblastic leukaemia // Indian Journal of Medical Research.‒2011.‒Т. 133, no. 3.‒P. 280-286.

450.Smolders J., van den Ouweland J., Geven C., Pickkers P., Kox M. Letter to the Editor: Vitamin D deficiency in COVID-19: Mixing up cause and consequence // Metabolism.‒2021.‒Vol. 115.‒ 154434.

451.Soeters P.B., Shenkin A., Sobotka L., Soeters M.R., de Leeuw P.W., Wolfe R.R. The anabolic role of the Warburg, Cori-cycle and Crabtree effects in health and disease // Clin. Nutr.‒2021.‒ Vol. 40, no. 5.‒P. 2988-2998.

452.Someya A., Nishijima K., Nunoi H., Irie S., Nagaoka I. Study on the superoxide-producing enzyme of eosinophils and neutrophils--comparison of the NADPH oxidase components // Arch. Biochem. Biophys.‒1997.‒Vol. 345, no. 2.‒P. 207-213.

453.Song J.W., Lam S.M., Fan X., Cao W.J., Wang S.Y., Tian H., Chua G.H., Zhang C., Meng F.P., Xu Z., Fu J.L., Huang L., Xia P., Yang T., Zhang S., Li B., Jiang T.J., Wang R., Wang Z., Shi M., Zhang J.Y., Wang F.S., Shui G. Omics-Driven Systems Interrogation of Metabolic Dysregulation in COVID-19 Pathogenesis // Cell Metab.‒2020.‒Vol. 32, no. 2.‒P. 188-202.e5.

454.Soria-Castro R., Meneses-Preza Y.G., Rodríguez-López G.M., Romero-Ramírez S., SosaHernández V.A., Cervantes-Díaz R., Pérez-Fragoso A., Torres-Ruíz J.J., Gómez-Martín D., Campillo-Navarro M., Álvarez-Jiménez V.D., Pérez-Tapia S.M., Chávez-Blanco A.D., EstradaParra S., Maravillas-Montero J.L., Chacón-Salinas R. Severe COVID-19 is marked by dysregulated serum levels of carboxypeptidase A3 and serotonin // J. Leukoc. Biol.‒2021.‒Vol. 110, no. 3.‒P. 425-431.

455.Srivastava M.K., Sinha P., Clements V.K., Rodriguez P., Ostrand-Rosenberg S. Myeloidderived suppressor cells inhibit T-cell activation by depleting cystine and cysteine // Cancer Res.‒ 2010.‒Vol. 70, no. 1.‒P. 68-77.

456.Stathopoulou C., Nikoleri D., Bertsias G. Immunometabolism: an overview and therapeutic

prospects in autoimmune diseases // Immunotherapy. 2019. Vol. 11, no. 9. P. 813-829.

457.Sterner R.C., Sterner R.M. CAR-T cell therapy: current limitations and potential strategies // Blood Cancer J.‒2021.‒Vol. 11, no. 4.‒P. 69.

458.Sudre C.H., Murray B., Varsavsky T., Graham M.S., Penfold R.S., Bowyer R.C., Pujol J.C., Klaser K., Antonelli M., Canas L.S., Molteni E., Modat M., Jorge Cardoso M., May A., Ganesh S., Davies R., Nguyen L.H., Drew D.A., Astley C.M., Joshi A.D., Merino J., Tsereteli N., Fall T., Gomez M.F., Duncan E.L., Menni C., Williams F.M.K., Franks P.W., Chan A.T., Wolf J., Ourselin S., Spector T., Steves C.J. Attributes and predictors of long COVID // Nat. Med.‒2021.‒ Vol. 27, no. 4.‒P. 626-631.

459.Sukkar S.G., Cogorno L., Pisciotta L., Pasta A., Vena A., Gradaschi R., Dentone C., Guiddo E., Martino E., Beltramini S., Donini L.M., Carmisciano L., Sormani M.P., Bassetti M.; GECOVID Study Group. Clinical efficacy of eucaloric ketogenic nutrition in the COVID-19 cytokine storm: A retrospective analysis of mortality and intensive care unit admission // Nutrition.‒2021.‒Vol. 89.‒111236.

460.Sukumar M., Liu J., Mehta G.U., Patel S.J., Roychoudhuri R., Crompton J.G., Klebanoff C.A., Ji Y., Li P., Yu Z., Whitehill G.D., Clever D., Eil R.L., Palmer D.C., Mitra S., Rao M., Keyvanfar K., Schrump D.S., Wang E., Marincola F.M., Gattinoni L., Leonard W.J., Muranski P., Finkel T., Restifo N.P. Mitochondrial Membrane Potential Identifies Cells with Enhanced Stemness for Cellular Therapy // Cell. Metab.‒2016.‒Vol. 23, no. 1.‒P. 63-76.

447

https://t.me/medicina_free

461.Suleiman L., Négrier C., Boukerche H. Protein S: A multifunctional anticoagulant vitamin K- dependent protein at the crossroads of coagulation, inflammation, angiogenesis, and cancer // Crit. Rev. Oncol. Hematol.‒2013.‒Vol. 88, no. 3.‒P. 637-654.

462.Takele Y., Abebe T., Weldegebreal T., Hailu A., Hailu W., Hurissa Z., Ali J., Diro E., Sisay Y., Cloke T., Modolell M., Munder M., Tacchini-Cottier F., Müller I., Kropf P. Arginase activity in the blood of patients with visceral leishmaniasis and HIV infection // PLoS Negl. Trop.

Dis. 2013. Vol. 7, no. 1. e1977.

463.Talib J., Maghzal G.J., Cheng D., Stocker R. Detailed protocol to assess in vivo and ex vivo myeloperoxidase activity in mouse models of vascular inflammation and disease using hydroethidine // Free Radic. Biol. Med.‒2016.‒Vol. 97.‒P. 124-135.

464.Tan C.W., Ho L.P., Kalimuddin S., Cherng B.P.Z., Teh Y.E., Thien S.Y., Wong H.M., Tern P.J.W., Chandran M., Chay J.W.M., Nagarajan C., Sultana R., Low J.G.H., Ng H.J. Cohort study to evaluate the effect of vitamin D, magnesium, and vitamin B12 in combination on progression to severe outcomes in older patients with coronavirus (COVID-19) // Nutrition.‒2020.‒Vol. 7980.‒111017.

465.Tannahill G.M., Curtis A.M., Adamik J., Palsson-McDermott E.M., McGettrick A.F., Goel G., Frezza C., Bernard N.J., Kelly B., Foley N.H., Zheng L., Gardet A., Tong Z., Jany S.S., Corr S.C., Haneklaus M., Caffrey B.E., Pierce K., Walmsley S., Beasley F.C., Cummins E., Nizet V., Whyte M., Taylor C.T., Lin H., Masters S.L., Gottlieb E., Kelly V.P., Clish C., Auron P.E., Xavier R.J., O'Neill L.A. Succinate is an inflammatory signal that induces IL-1β through HIF-1α // Nature.‒2013.‒Vol. 496, no. 7444.‒P. 238-242.

466.Tanner J.E., Alfieri C. The Fatty Acid Lipid Metabolism Nexus in COVID-19 // Viruses.‒ 2021.‒Vol. 13, no. 1.‒P. 90.

467.Tedeschi P.M., Bansal N., Kerrigan J.E., Abali E.E., Scotto K.W., Bertino J.R. NAD+ Kinase as a Therapeutic Target in Cancer // Clin. Cancer Res.‒2016.‒Vol. 22, no. 21.‒P. 5189-5195.

468.Teijeira A., Labiano S., Garasa S., Etxeberria I., Santamaría E., Rouzaut A., Enamorado M., Azpilikueta A., Inoges S., Bolaños E., Aznar M.A., Sánchez-Paulete A.R., Sancho D., Melero I. Mitochondrial Morphological and Functional Reprogramming Following CD137 (4-1BB) Costimulation // Cancer Immunol. Res.‒2018.‒Vol. 6, no. 7.‒P. 798-811.

469.Tenforde M.W., Kim S.S., Lindsell C.J., Billig Rose E., Shapiro N.I., Files D.C., Gibbs K.W., Erickson H.L., Steingrub J.S., Smithline H.A., Gong M.N., Aboodi M.S., Exline M.C., Henning D.J., Wilson J.G., Khan A., Qadir N., Brown S.M., Peltan I.D., Rice T.W., Hager D.N., Ginde A.A., Stubblefield W.B., Patel M.M., Self W.H., Feldstein L.R.; IVY Network Investigators; CDC COVID-19 Response Team; IVY Network Investigators. Symptom Duration and Risk Factors for Delayed Return to Usual Health Among Outpatients with COVID-19 in a Multistate Health Care Systems Network - United States, March-June 2020 // MMWR Morb. Mortal. Wkly Rep.‒2020.‒Vol. 69, no. 30.‒P. 993-998.

470.The Financial Express. (2020) The role of vitamin C in fighting COVID-19 pandemic – the financial express. https://www.financialexpress.com/lifestyle/health/the-role-of-vitamin-c-in- fighting-covid-19-pandemic/2084387/

471.Thomas T., Stefanoni D., Reisz J.A., Nemkov T., Bertolone L., Francis R.O., Hudson K.E., Zimring J.C., Hansen K.C., Hod E.A., Spitalnik S.L., D'Alessandro A. COVID-19 infection alters kynurenine and fatty acid metabolism, correlating with IL-6 levels and renal status // JCI Insight.‒ 2020.‒Vol. 5, no. 14.‒e140327.

472.Thorne N., Inglese J., Auld D.S. Illuminating insights into firefly luciferase and other bioluminescent reporters used in chemical biology // Chem. Biol.‒2010.‒Vol. 17, no. 6.‒P. 646657.

473.Thwe P.M., Fritz D.I., Snyder J.P., Smith P.R., Curtis K.D., O'Donnell A., Galasso N.A., Sepaniac L.A., Adamik B.J., Hoyt L.R., Rodriguez P.D., Hogan T.C., Schmidt A.F., Poynter M.E., Amiel E. Syk-dependent glycolytic reprogramming in dendritic cells regulates IL-1β

production to β-glucan ligands in a TLR-independent manner // J. Leukoc. Biol. 2019. Vol. 106, no. 6. P. 1325-1335.

448

https://t.me/medicina_free

474.Tjokrowidjaja A., Lord S.J., John T., Lewis C.R., Kok P.S., Marschner I.C., Lee C.K. Preand on-treatment lactate dehydrogenase as a prognostic and predictive biomarker in advanced non-small cell lung cancer // Cancer.‒2022.‒Vol. 128, no. 8.‒P. 1574-1583.

475.Tóth S.Z., Lőrincz T., Szarka A. Concentration Does Matter: The Beneficial and Potentially Harmful Effects of Ascorbate in Humans and Plants // Antioxid. Redox Signal.‒2018.‒Vol. 29, no. 15.‒P. 1516-1533.

476.Townsend L., Dyer A.H., McCluskey P., O'Brien K., Dowds J., Laird E., Bannan C., Bourke N.M., Ní Cheallaigh C., Byrne D.G., Kenny R.A. Investigating the Relationship between Vitamin D and Persistent Symptoms Following SARS-CoV-2 Infection // Nutrients.‒2021.‒Vol. 13, no. 7.‒2430.

477.Traber M.G. Vitamin E regulatory mechanisms // Annu. Rev. Nutr.‒2007.‒Vol. 27.‒P. 347362.

478.Trimarco V., Izzo R., Lombardi A., Coppola A., Fiorentino G., Santulli G. Beneficial effects of L-Arginine in patients hospitalized for COVID-19: New insights from a randomized clinical trial // Pharmacol. Res.‒2023.‒Vol. 191.‒106702.

479.Turgay Yıldırım Ö., Kaya Ş. The atherogenic index of plasma as a predictor of mortality in patients with COVID-19 // Heart Lung.‒2021.‒Vol. 50, no. 2.‒P. 329-333.

480.Valvo V., Parietti E., Deans K., Ahn S.W., Park N.R., Ferland B., Thompson D., Dominas C., Bhagavatula S.K., Davidson S., Jonas O. High-throughput in situ perturbation of metabolite levels in the tumor micro-environment reveals favorable metabolic condition for increased fitness of infiltrated T-cells // Front. Cell. Dev. Biol.‒2022.‒Vol. 10.‒1032360.

481.van der Windt G.J., O'Sullivan D., Everts B., Huang S.C., Buck M.D., Curtis J.D., Chang C.H., Smith A.M., Ai T., Faubert B., Jones R.G., Pearce E.J., Pearce E.L. CD8 memory T cells have a bioenergetic advantage that underlies their rapid recall ability // Proc. Natl. Acad. Sci.

USA. 2013. Vol. 110, no. 35. P.14336-14341.

482.Veskoukis A.S., Kyparos A., Paschalis V., Nikolaidis M.G. Spectrophotometric assays for measuring redox biomarkers in blood // Biomarkers.‒2016.‒Vol. 21, no. 3.‒P. 208-217.

483.Veskoukis A.S., Margaritelis N.V., Kyparos A., Paschalis V., Nikolaidis M.G. Spectrophotometric assays for measuring redox biomarkers in blood and tissues: the NADPH network // Redox. Rep.‒2018.‒Vol. 23, no. 1.‒P. 47-56.

484.Villar J., Coillard A., van Roessel C., Segura E. Culture System Allowing the Simultaneous Differentiation of Human Monocytes into Dendritic Cells and Macrophages Using M-CSF, IL-4, and TNF-α // Methods Mol. Biol.‒2023.‒Vol. 2618.‒P. 147-154.

485.Vissers M.C.M., Wilkie R.P. Ascorbate deficiency results in impaired neutrophil apoptosis and clearance and is associated with up-regulation of hypoxia-inducible factor 1α // J. Leukoc. Biol.‒2007.‒Vol. 81, no. 5.‒P. 1236-1244.

486.Vowells S.J., Sekhsaria S., Malech H.L., Shalit M., Fleisher T.A. Flow cytometric analysis of the granulocyte respiratory burst: a comparison study of fluorescent probes // J. Immunol. Methods.‒1995.‒Vol. 178, no 1.‒P. 89-97.

487.Waghela B.N., Vaidya F.U., Agrawal Y., Santra M.K., Mishra V., Pathak C. Molecular insights of NADPH oxidases and its pathological consequences // Cell. Biochem. Funct.‒2021.‒ Vol. 39, no. 2.‒P. 218-234.

488.Wagner T.C., Scott M.D. Single extraction method for the spectrophotometric quantification of oxidized and reduced pyridine nucleotides in erythrocytes // Anal. Biochem.‒1994.‒Vol. 222, no. 2.‒P. 417-426.

489.Wang C., Yosef N., Gaublomme J., Wu C., Lee Y., Clish C.B., Kaminski J., Xiao S., Meyer Zu Horste G., Pawlak M., Kishi Y., Joller N., Karwacz K., Zhu C., Ordovas-Montanes M., Madi A., Wortman I., Miyazaki T., Sobel R.A., Park H., Regev A., Kuchroo V.K. CD5L/AIM Regulates

Lipid Biosynthesis and Restrains Th17 Cell Pathogenicity // Cell. 2015. Vol. 163, no. 6. P. 1413-1427.

449

https://t.me/medicina_free