Influence of selected drug molecules on human Tear Film Lipid Layer models

Riedlová, Kamila

Studium vlivu zvolených léčiv na modelech lipidové vrstvy slzného filmu lidského oka

dc.creator	Riedlová, Kamila
dc.date.accessioned	2025-01-22T09:54:47Z
dc.date.available	2025-01-22T09:54:47Z
dc.date.issued	2025
dc.identifier.uri	http://hdl.handle.net/20.500.11956/196196
dc.description.abstract	disertac ̌nı ́ pra ́ce Kamila Riedlova ́ August 2024 Tato dizertac ̌nı ́ pra ́ce zkouma ́ molekula ́rnı ́ interakce ru ̊zny ́ch oftalmologicky ́ch le ́c ̌iv a farmakologicky vy ́znamny ́ch slouc ̌enin s modely lipidove ́ vrstvy slzne ́ho filmu (TFLL) pomocı ́ simulacı ́ molekulove ́ dynamiky (MD). Studie se zame ̌r ̌uje na benzalkonium chlo- ridy (BAKs), latanoprost (LTP), surfaktantovy ́ protein G (SP-G), simulovane ́ v TFLL, a H1 peptid odvozeny ́ od kolicinu U, ktery ́ byl simulova ́n v modelovy ́ch lipidovy ́ch dvoj- vrstva ́ch. MD simulace poskytly podrobne ́ poznatky o interakcı ́ch te ̌chto slouc ̌enin s lipidovy ́mi prostr ̌edı ́mi. Bylo pozorova ́no, z ̌e LTP se integruje do TFLL. LTP vykazoval vy ́znamnou tendenci migrovat a zac ̌len ̌ovat se do lipidove ́ vrstvy a ovlivn ̌ovat tak struk- tura ́lnı ́ dynamiku TFLL. To naznac ̌uje, z ̌e terapeuticka ́ u ́c ̌innost mu ̊z ̌e by ́t zvy 's ̌ena dı ́ky postupne ́mu uvoln ̌ova ́nı ́. Chova ́nı ́ BAKs v TFLL zdu ̊raznilo jejich dvojı ́ roli, ovlivn ̌ujı ́cı ́ jak doda ́vku le ́c ̌iva, tak integritu slzne ́ho filmu (TF). Nas ̌e simulace uka ́zaly, z ̌e molekuly BAKu ̊ pr ̌i ru ̊zny ́ch koncentracı ́ch mohou narus ̌it TFLL, coz ̌ vede ke zme ̌na ́m v lipidove ́m uspor ̌a ́da ́nı ́a potencia ́lnı ́destabilizaci TF. To vyz ̌aduje pec ̌live ́ zva ́z...	cs_CZ
dc.description.abstract	of the Dissertation Kamila Riedlova ́ August 2024 This dissertation investigates the molecular interactions of various ophthalmic drugs and pharmacologically significant compounds with models of the tear film lipid layer (TFLL) using molecular dynamics (MD) simulations. The study focuses on benzalko- nium chlorides (BAKs), latanoprost (LTP), surfactant protein G (SP-G), simulated in TFLL, and the H1 peptide derived from colicin U, simulated within model lipid bilay- ers. MD simulations provided detailed insights into the interactions of these compounds with lipid environments. LTP was observed to integrate into the TFLL. LTP demon- strated a significant tendency to migrate and incorporate into the lipid layer, influencing the structural dynamics of TFLL. This suggests that therapeutic efficacy could be en- hanced through sustained release. The behavior of BAKs in TFLL highlighted their dual role, affecting both drug delivery and tear film (TF) integrity. Our simulations showed that BAK molecules at different concentrations could disrupt TFLL, leading to changes in lipid organization and potential TF destabilization. This necessitates careful consideration of the concentration used to balance preservative efficacy with maintaining TF stability. SP-G demonstrated a stabilizing effect on TFLL. By...	en_US
dc.language	English	cs_CZ
dc.language.iso	en_US
dc.publisher	Univerzita Karlova, Přírodovědecká fakulta	cs_CZ
dc.subject	molecular dynamics simulations	en_US
dc.subject	coarse grained simulations	en_US
dc.subject	tear film	en_US
dc.subject	tear film lipid layer	en_US
dc.subject	latanoprost	en_US
dc.subject	benzalkonium chlorides (BAKs)	en_US
dc.subject	surfactant protein G (SP-G)	en_US
dc.subject	colicin U	en_US
dc.subject	simulace molekulové dynamiky	cs_CZ
dc.subject	coarse grained simulace	cs_CZ
dc.subject	slzný film	cs_CZ
dc.subject	lipidová vrstva slzného filmu	cs_CZ
dc.subject	latanoprost	cs_CZ
dc.subject	benzalkonium chloridy (BAKs)	cs_CZ
dc.subject	surfaktantový protein G (SP-G)	cs_CZ
dc.subject	kolicin U	cs_CZ
dc.title	Influence of selected drug molecules on human Tear Film Lipid Layer models	en_US
dc.type	rigorózní práce	cs_CZ
dcterms.created	2025
dcterms.dateAccepted	2025-01-14
dc.description.department	Department of Physical and Macromolecular Chemistry	en_US
dc.description.department	Katedra fyzikální a makromol. chemie	cs_CZ
dc.description.faculty	Přírodovědecká fakulta	cs_CZ
dc.description.faculty	Faculty of Science	en_US
dc.identifier.repId	278461
dc.title.translated	Studium vlivu zvolených léčiv na modelech lipidové vrstvy slzného filmu lidského oka	cs_CZ
thesis.degree.name	RNDr.
thesis.degree.level	rigorózní řízení	cs_CZ
thesis.degree.discipline	Physical Chemistry	en_US
thesis.degree.discipline	Fyzikální chemie	cs_CZ
thesis.degree.program	Physical Chemistry	en_US
thesis.degree.program	Fyzikální chemie	cs_CZ
uk.thesis.type	rigorózní práce	cs_CZ
uk.taxonomy.organization-cs	Přírodovědecká fakulta::Katedra fyzikální a makromol. chemie	cs_CZ
uk.taxonomy.organization-en	Faculty of Science::Department of Physical and Macromolecular Chemistry	en_US
uk.faculty-name.cs	Přírodovědecká fakulta	cs_CZ
uk.faculty-name.en	Faculty of Science	en_US
uk.faculty-abbr.cs	PřF	cs_CZ
uk.degree-discipline.cs	Fyzikální chemie	cs_CZ
uk.degree-discipline.en	Physical Chemistry	en_US
uk.degree-program.cs	Fyzikální chemie	cs_CZ
uk.degree-program.en	Physical Chemistry	en_US
thesis.grade.cs	Uznáno	cs_CZ
thesis.grade.en	Recognized	en_US
uk.abstract.cs	disertac ̌nı ́ pra ́ce Kamila Riedlova ́ August 2024 Tato dizertac ̌nı ́ pra ́ce zkouma ́ molekula ́rnı ́ interakce ru ̊zny ́ch oftalmologicky ́ch le ́c ̌iv a farmakologicky vy ́znamny ́ch slouc ̌enin s modely lipidove ́ vrstvy slzne ́ho filmu (TFLL) pomocı ́ simulacı ́ molekulove ́ dynamiky (MD). Studie se zame ̌r ̌uje na benzalkonium chlo- ridy (BAKs), latanoprost (LTP), surfaktantovy ́ protein G (SP-G), simulovane ́ v TFLL, a H1 peptid odvozeny ́ od kolicinu U, ktery ́ byl simulova ́n v modelovy ́ch lipidovy ́ch dvoj- vrstva ́ch. MD simulace poskytly podrobne ́ poznatky o interakcı ́ch te ̌chto slouc ̌enin s lipidovy ́mi prostr ̌edı ́mi. Bylo pozorova ́no, z ̌e LTP se integruje do TFLL. LTP vykazoval vy ́znamnou tendenci migrovat a zac ̌len ̌ovat se do lipidove ́ vrstvy a ovlivn ̌ovat tak struk- tura ́lnı ́ dynamiku TFLL. To naznac ̌uje, z ̌e terapeuticka ́ u ́c ̌innost mu ̊z ̌e by ́t zvy 's ̌ena dı ́ky postupne ́mu uvoln ̌ova ́nı ́. Chova ́nı ́ BAKs v TFLL zdu ̊raznilo jejich dvojı ́ roli, ovlivn ̌ujı ́cı ́ jak doda ́vku le ́c ̌iva, tak integritu slzne ́ho filmu (TF). Nas ̌e simulace uka ́zaly, z ̌e molekuly BAKu ̊ pr ̌i ru ̊zny ́ch koncentracı ́ch mohou narus ̌it TFLL, coz ̌ vede ke zme ̌na ́m v lipidove ́m uspor ̌a ́da ́nı ́a potencia ́lnı ́destabilizaci TF. To vyz ̌aduje pec ̌live ́ zva ́z...	cs_CZ
uk.abstract.en	of the Dissertation Kamila Riedlova ́ August 2024 This dissertation investigates the molecular interactions of various ophthalmic drugs and pharmacologically significant compounds with models of the tear film lipid layer (TFLL) using molecular dynamics (MD) simulations. The study focuses on benzalko- nium chlorides (BAKs), latanoprost (LTP), surfactant protein G (SP-G), simulated in TFLL, and the H1 peptide derived from colicin U, simulated within model lipid bilay- ers. MD simulations provided detailed insights into the interactions of these compounds with lipid environments. LTP was observed to integrate into the TFLL. LTP demon- strated a significant tendency to migrate and incorporate into the lipid layer, influencing the structural dynamics of TFLL. This suggests that therapeutic efficacy could be en- hanced through sustained release. The behavior of BAKs in TFLL highlighted their dual role, affecting both drug delivery and tear film (TF) integrity. Our simulations showed that BAK molecules at different concentrations could disrupt TFLL, leading to changes in lipid organization and potential TF destabilization. This necessitates careful consideration of the concentration used to balance preservative efficacy with maintaining TF stability. SP-G demonstrated a stabilizing effect on TFLL. By...	en_US
uk.file-availability	V
uk.grantor	Univerzita Karlova, Přírodovědecká fakulta, Katedra fyzikální a makromol. chemie	cs_CZ
thesis.grade.code	U
uk.publication-place	Praha	cs_CZ
uk.thesis.defenceStatus	U

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