TY  - JOUR
AU  - Pajić, Tanja
AU  - Stevanović, Katarina
AU  - Todorović, Nataša
AU  - Krmpot, Aleksandar J
AU  - Živić, Miroslav
AU  - Savić-Šević, Svetlana
AU  - Lević, Steva M
AU  - Stanić, Marina
AU  - Pantelić, Dejan
AU  - Jelenković, Brana
AU  - Rabasović, Mihailo D
PY  - 2024
UR  - http://radar.ibiss.bg.ac.rs/handle/123456789/6666
AB  - Studying the membrane physiology of filamentous fungi is key to understanding their interactions with the environment and crucial for developing new therapeutic strategies for disease-causing pathogens. However, their plasma membrane has been inaccessible for a micron-sized patch-clamp pipette for pA current recordings due to the rigid chitinous cell wall. Here, we report the first femtosecond IR laser nanosurgery of the cell wall of the filamentous fungi, which enabled patch-clamp measurements on protoplasts released from hyphae. A reproducible and highly precise (diffraction-limited, submicron resolution) method for obtaining viable released protoplasts was developed. Protoplast release from the nanosurgery-generated incisions in the cell wall was achieved from different regions of the hyphae. The plasma membrane of the obtained protoplasts formed tight and high-resistance (GΩ) contacts with the recording pipette. The entire nanosurgical procedure followed by the patch-clamp technique could be completed in less than 1 hour. Compared to previous studies using heterologously expressed channels, this technique provides the opportunity to identify new ionic currents and to study the properties of the ion channels in the protoplasts of filamentous fungi in their native environment.
PB  - Springer Nature
T2  - Microsystems & Nanoengineering
T1  - In vivo femtosecond laser nanosurgery of the cell wall enabling patch-clamp measurements on filamentous fungi
VL  - 10
DO  - 10.1038/s41378-024-00664-x
SP  - 47
ER  - 

@article{
author = "Pajić, Tanja and Stevanović, Katarina and Todorović, Nataša and Krmpot, Aleksandar J and Živić, Miroslav and Savić-Šević, Svetlana and Lević, Steva M and Stanić, Marina and Pantelić, Dejan and Jelenković, Brana and Rabasović, Mihailo D",
year = "2024",
abstract = "Studying the membrane physiology of filamentous fungi is key to understanding their interactions with the environment and crucial for developing new therapeutic strategies for disease-causing pathogens. However, their plasma membrane has been inaccessible for a micron-sized patch-clamp pipette for pA current recordings due to the rigid chitinous cell wall. Here, we report the first femtosecond IR laser nanosurgery of the cell wall of the filamentous fungi, which enabled patch-clamp measurements on protoplasts released from hyphae. A reproducible and highly precise (diffraction-limited, submicron resolution) method for obtaining viable released protoplasts was developed. Protoplast release from the nanosurgery-generated incisions in the cell wall was achieved from different regions of the hyphae. The plasma membrane of the obtained protoplasts formed tight and high-resistance (GΩ) contacts with the recording pipette. The entire nanosurgical procedure followed by the patch-clamp technique could be completed in less than 1 hour. Compared to previous studies using heterologously expressed channels, this technique provides the opportunity to identify new ionic currents and to study the properties of the ion channels in the protoplasts of filamentous fungi in their native environment.",
publisher = "Springer Nature",
journal = "Microsystems & Nanoengineering",
title = "In vivo femtosecond laser nanosurgery of the cell wall enabling patch-clamp measurements on filamentous fungi",
volume = "10",
doi = "10.1038/s41378-024-00664-x",
pages = "47"
}

Pajić, T., Stevanović, K., Todorović, N., Krmpot, A. J., Živić, M., Savić-Šević, S., Lević, S. M., Stanić, M., Pantelić, D., Jelenković, B.,& Rabasović, M. D.. (2024). In vivo femtosecond laser nanosurgery of the cell wall enabling patch-clamp measurements on filamentous fungi. in Microsystems & Nanoengineering
Springer Nature., 10, 47.
https://doi.org/10.1038/s41378-024-00664-x

Pajić T, Stevanović K, Todorović N, Krmpot AJ, Živić M, Savić-Šević S, Lević SM, Stanić M, Pantelić D, Jelenković B, Rabasović MD. In vivo femtosecond laser nanosurgery of the cell wall enabling patch-clamp measurements on filamentous fungi. in Microsystems & Nanoengineering. 2024;10:47.
doi:10.1038/s41378-024-00664-x .

Pajić, Tanja, Stevanović, Katarina, Todorović, Nataša, Krmpot, Aleksandar J, Živić, Miroslav, Savić-Šević, Svetlana, Lević, Steva M, Stanić, Marina, Pantelić, Dejan, Jelenković, Brana, Rabasović, Mihailo D, "In vivo femtosecond laser nanosurgery of the cell wall enabling patch-clamp measurements on filamentous fungi" in Microsystems & Nanoengineering, 10 (2024):47,
https://doi.org/10.1038/s41378-024-00664-x . .

TY  - CONF
AU  - Pajić, Tanja
AU  - Stevanović, Katarina
AU  - Todorović, Nataša
AU  - Krmpot, Aleksandar
AU  - Rabasović, Mihailo
AU  - Lazović, Vladimir
AU  - Pantelić, Dejan
AU  - Jelenković, Branislav
AU  - Živić, Miroslav
PY  - 2018
UR  - https://www.google.com/url?sa=t&rct=j&q=&esrc=s&source=web&cd=&cad=rja&uact=8&ved=2ahUKEwj1h4zoze6BAxWUtqQKHec6BAsQFnoECBsQAQ&url=https%3A%2F%2Fskbs.sk%2Fwp-content%2Fuploads%2F2018%2F05%2Frbc_2018.pdf&usg=AOvVaw3s3FIWs-7Q4jE-gsL6G_U6&opi=89978449
UR  - http://radar.ibiss.bg.ac.rs/handle/123456789/6292
AB  - Application of patch-clamp method for investigation of membrane ion channels of filamentous
fungi is nontrivial task due to presence of chitinous cell wall. Complete removal of the
wall patch is needed to make the membrane accessible to glass pipette. We use the model
filamentous fungus organism, Phycomyces blakesleeanus which is undertaken to the cell
surgery procedure by means of tightly focused femtosecond laser beam. The hyphae were
grown on glass coverslips coated with collagen plasmolysed and imaged by homemade nonlinear
laser scanning microscope by detecting two photon excitation fluorescence signal.
Although intrinsic autofluorescence of chitin enables imaging of the cell wall the hyphae
were stained by Calcofluor White dye prior to the imaging in order to improve signal to
noise ratio. Ti:Sa laser, used for both imaging and surgery, was operating at 730nm, with
76MHz repetition rate and 160fs pulse duration. Carl Zeiss, EC Plan-NEOFLUAR, 401.3
oil immersion objective was used for tight focusing of the laser beam and for the collection
of the fluorescence signal. A visible interference filter (415nm - 685nm) was placed in front
of detector in order to remove scattered laser light. The successful cutting of cell wall could
be achieved within the range of laser intensities and cutting speeds (dwell times). The
hyphae were kept in azide throughout the experiment in order to block the regeneration
of the cell wall. After the surgery, hyphae were slowly deplasmolysed to induce exit of a
portion of the protoplast through the laser made incision in the cell wall.
PB  - Ljubljana: Slovenian Biophysical Society
C3  - Book of abstracts: 8th Regional Biophysics Conference: RBC2018; 2018 May 16-20; Zreče, Slovenia
T1  - Successful Ti: Sapphire laser cell surgery of Phycomyces blakesleeanus cell wall
SP  - PS-43
UR  - https://hdl.handle.net/21.15107/rcub_ibiss_6292
ER  - 

@conference{
author = "Pajić, Tanja and Stevanović, Katarina and Todorović, Nataša and Krmpot, Aleksandar and Rabasović, Mihailo and Lazović, Vladimir and Pantelić, Dejan and Jelenković, Branislav and Živić, Miroslav",
year = "2018",
abstract = "Application of patch-clamp method for investigation of membrane ion channels of filamentous
fungi is nontrivial task due to presence of chitinous cell wall. Complete removal of the
wall patch is needed to make the membrane accessible to glass pipette. We use the model
filamentous fungus organism, Phycomyces blakesleeanus which is undertaken to the cell
surgery procedure by means of tightly focused femtosecond laser beam. The hyphae were
grown on glass coverslips coated with collagen plasmolysed and imaged by homemade nonlinear
laser scanning microscope by detecting two photon excitation fluorescence signal.
Although intrinsic autofluorescence of chitin enables imaging of the cell wall the hyphae
were stained by Calcofluor White dye prior to the imaging in order to improve signal to
noise ratio. Ti:Sa laser, used for both imaging and surgery, was operating at 730nm, with
76MHz repetition rate and 160fs pulse duration. Carl Zeiss, EC Plan-NEOFLUAR, 401.3
oil immersion objective was used for tight focusing of the laser beam and for the collection
of the fluorescence signal. A visible interference filter (415nm - 685nm) was placed in front
of detector in order to remove scattered laser light. The successful cutting of cell wall could
be achieved within the range of laser intensities and cutting speeds (dwell times). The
hyphae were kept in azide throughout the experiment in order to block the regeneration
of the cell wall. After the surgery, hyphae were slowly deplasmolysed to induce exit of a
portion of the protoplast through the laser made incision in the cell wall.",
publisher = "Ljubljana: Slovenian Biophysical Society",
journal = "Book of abstracts: 8th Regional Biophysics Conference: RBC2018; 2018 May 16-20; Zreče, Slovenia",
title = "Successful Ti: Sapphire laser cell surgery of Phycomyces blakesleeanus cell wall",
pages = "PS-43",
url = "https://hdl.handle.net/21.15107/rcub_ibiss_6292"
}

Pajić, T., Stevanović, K., Todorović, N., Krmpot, A., Rabasović, M., Lazović, V., Pantelić, D., Jelenković, B.,& Živić, M.. (2018). Successful Ti: Sapphire laser cell surgery of Phycomyces blakesleeanus cell wall. in Book of abstracts: 8th Regional Biophysics Conference: RBC2018; 2018 May 16-20; Zreče, Slovenia
Ljubljana: Slovenian Biophysical Society., PS-43.
https://hdl.handle.net/21.15107/rcub_ibiss_6292

Pajić T, Stevanović K, Todorović N, Krmpot A, Rabasović M, Lazović V, Pantelić D, Jelenković B, Živić M. Successful Ti: Sapphire laser cell surgery of Phycomyces blakesleeanus cell wall. in Book of abstracts: 8th Regional Biophysics Conference: RBC2018; 2018 May 16-20; Zreče, Slovenia. 2018;:PS-43.
https://hdl.handle.net/21.15107/rcub_ibiss_6292 .

Pajić, Tanja, Stevanović, Katarina, Todorović, Nataša, Krmpot, Aleksandar, Rabasović, Mihailo, Lazović, Vladimir, Pantelić, Dejan, Jelenković, Branislav, Živić, Miroslav, "Successful Ti: Sapphire laser cell surgery of Phycomyces blakesleeanus cell wall" in Book of abstracts: 8th Regional Biophysics Conference: RBC2018; 2018 May 16-20; Zreče, Slovenia (2018):PS-43,
https://hdl.handle.net/21.15107/rcub_ibiss_6292 .

TY  - CONF
AU  - Isaković, Anđelka
AU  - Stanojević, Željka
AU  - Zogović, Nevena
AU  - Jovanić, Svetlana
AU  - Rabasović, Mihajlo
AU  - Krmpot, Aleksandar
AU  - Pantelić, Dejan
AU  - Misirlić-Denčić, Sonja
PY  - 2015
UR  - http://radar.ibiss.bg.ac.rs/handle/123456789/6775
AB  - Apoptosis, or programmed cell death type I, is a process in which sequence of events leads to degradation of cell content, cell shrinkage, membrane changes and fragmentation of nucleus. In the execution phase of apoptosis, breaking down of cell cytoskeleton causes the cell membrane to bulge outward - phenomenon known as membrane blebbing. The end result is formation of apoptotic bodies, membrane-bound vesicles containing organelles, sometimes with nuclear fragments. Induction of apoptosis is considered as best approach in anticancer therapy with cytotoxic drugs [1]. Therefore, detecting morphological features of tumor cells under the influence of cytotoxic agents is of great scientific importance. One of the obstacles is to visualize and analyze morphological changes in living suspension cells (e.g. leukemic cells) using conventional light and/or fluorescence microscopy. Therefore, transmission electron microscopy is often used. Although this gives deep insight into subcellular morphology and changes, methodology employed is often time-consuming, expensive and involves usage of multiple toxic substances. Given all of the above, we analyzed apoptotic changes in commercial human acute promyelocytic leukemic (HL-60) cell line treated with well-known apoptosis- inducing antitumor agent cisplatin [2], using second-harmonic generation (SHG) imaging, using femtosecond laser microscopy homemade nonlinear laser scanning microscope [3] in Two Photon Excitation Fluorescence (TPEF) mode. Cells were grown under standard conditions [4], seeded in 12-well plates, and treated with cisplatin for 48h in the IC50 value concentration range (the IC50 value is a concentration that decreases cell viability for 50 %, compared to untreated cells). After the treatment, cells were incubated in dark with supravital fluorescent dye acridine orange (AO) for 30 minutes. The ≈10 μl drop of cells was then placed on microscope slides and covered with glass cover slips. Control (untreated cells) and cells treated with cisplatin were visualized and photographed using TPEF SHG imaging. Sections of cells 1,6 μm thick were made, and 3D image reconstruction was performed. Untreated cells were seen as round, with intact cell membrane and clearly visible nucleus and nucleolus, as expected. On the other hand, leukemic cells treated with cisplatin showed changes in the morphology. They were smaller in diameter, and cell nucleus was fragmented. Furthermore, cell membrane changes were also seen, numerous protrusions, suggesting membrane blebbing and initial phases of apoptotic bodies formation. 3D image reconstruction further confirmed observed morphological cell changes typical for apoptosis. Performed experiments and obtained results suggest that SHG TPEF imaging could be used for the detection of morphology phenomena related to cell apoptosis, which can be of importance in cancer research, especially in the area of understanding cytotoxic mechanism of action of novel potential antileukemic agents.
PB  - Belgrade : Vinča Institute of Nuclear Sciences
C3  - Book of Abstracts: The Fifth international school and conference on photonics & COST actions: MP1204, BM1205 and MP1205 & the Second international workshop: Control of light and matter waves propagation and localization in photonic lattices: Photonica 2015; 2015 Aug 24-28; Belgrade, Serbia
T1  - Apoptotic changes visualization in cisplatin-treated leukemic cells using second-harmonic generation imaging
SP  - 140
EP  - 141
UR  - https://hdl.handle.net/21.15107/rcub_ibiss_6775
ER  - 

@conference{
author = "Isaković, Anđelka and Stanojević, Željka and Zogović, Nevena and Jovanić, Svetlana and Rabasović, Mihajlo and Krmpot, Aleksandar and Pantelić, Dejan and Misirlić-Denčić, Sonja",
year = "2015",
abstract = "Apoptosis, or programmed cell death type I, is a process in which sequence of events leads to degradation of cell content, cell shrinkage, membrane changes and fragmentation of nucleus. In the execution phase of apoptosis, breaking down of cell cytoskeleton causes the cell membrane to bulge outward - phenomenon known as membrane blebbing. The end result is formation of apoptotic bodies, membrane-bound vesicles containing organelles, sometimes with nuclear fragments. Induction of apoptosis is considered as best approach in anticancer therapy with cytotoxic drugs [1]. Therefore, detecting morphological features of tumor cells under the influence of cytotoxic agents is of great scientific importance. One of the obstacles is to visualize and analyze morphological changes in living suspension cells (e.g. leukemic cells) using conventional light and/or fluorescence microscopy. Therefore, transmission electron microscopy is often used. Although this gives deep insight into subcellular morphology and changes, methodology employed is often time-consuming, expensive and involves usage of multiple toxic substances. Given all of the above, we analyzed apoptotic changes in commercial human acute promyelocytic leukemic (HL-60) cell line treated with well-known apoptosis- inducing antitumor agent cisplatin [2], using second-harmonic generation (SHG) imaging, using femtosecond laser microscopy homemade nonlinear laser scanning microscope [3] in Two Photon Excitation Fluorescence (TPEF) mode. Cells were grown under standard conditions [4], seeded in 12-well plates, and treated with cisplatin for 48h in the IC50 value concentration range (the IC50 value is a concentration that decreases cell viability for 50 %, compared to untreated cells). After the treatment, cells were incubated in dark with supravital fluorescent dye acridine orange (AO) for 30 minutes. The ≈10 μl drop of cells was then placed on microscope slides and covered with glass cover slips. Control (untreated cells) and cells treated with cisplatin were visualized and photographed using TPEF SHG imaging. Sections of cells 1,6 μm thick were made, and 3D image reconstruction was performed. Untreated cells were seen as round, with intact cell membrane and clearly visible nucleus and nucleolus, as expected. On the other hand, leukemic cells treated with cisplatin showed changes in the morphology. They were smaller in diameter, and cell nucleus was fragmented. Furthermore, cell membrane changes were also seen, numerous protrusions, suggesting membrane blebbing and initial phases of apoptotic bodies formation. 3D image reconstruction further confirmed observed morphological cell changes typical for apoptosis. Performed experiments and obtained results suggest that SHG TPEF imaging could be used for the detection of morphology phenomena related to cell apoptosis, which can be of importance in cancer research, especially in the area of understanding cytotoxic mechanism of action of novel potential antileukemic agents.",
publisher = "Belgrade : Vinča Institute of Nuclear Sciences",
journal = "Book of Abstracts: The Fifth international school and conference on photonics & COST actions: MP1204, BM1205 and MP1205 & the Second international workshop: Control of light and matter waves propagation and localization in photonic lattices: Photonica 2015; 2015 Aug 24-28; Belgrade, Serbia",
title = "Apoptotic changes visualization in cisplatin-treated leukemic cells using second-harmonic generation imaging",
pages = "140-141",
url = "https://hdl.handle.net/21.15107/rcub_ibiss_6775"
}

Isaković, A., Stanojević, Ž., Zogović, N., Jovanić, S., Rabasović, M., Krmpot, A., Pantelić, D.,& Misirlić-Denčić, S.. (2015). Apoptotic changes visualization in cisplatin-treated leukemic cells using second-harmonic generation imaging. in Book of Abstracts: The Fifth international school and conference on photonics & COST actions: MP1204, BM1205 and MP1205 & the Second international workshop: Control of light and matter waves propagation and localization in photonic lattices: Photonica 2015; 2015 Aug 24-28; Belgrade, Serbia
Belgrade : Vinča Institute of Nuclear Sciences., 140-141.
https://hdl.handle.net/21.15107/rcub_ibiss_6775

Isaković A, Stanojević Ž, Zogović N, Jovanić S, Rabasović M, Krmpot A, Pantelić D, Misirlić-Denčić S. Apoptotic changes visualization in cisplatin-treated leukemic cells using second-harmonic generation imaging. in Book of Abstracts: The Fifth international school and conference on photonics & COST actions: MP1204, BM1205 and MP1205 & the Second international workshop: Control of light and matter waves propagation and localization in photonic lattices: Photonica 2015; 2015 Aug 24-28; Belgrade, Serbia. 2015;:140-141.
https://hdl.handle.net/21.15107/rcub_ibiss_6775 .

Isaković, Anđelka, Stanojević, Željka, Zogović, Nevena, Jovanić, Svetlana, Rabasović, Mihajlo, Krmpot, Aleksandar, Pantelić, Dejan, Misirlić-Denčić, Sonja, "Apoptotic changes visualization in cisplatin-treated leukemic cells using second-harmonic generation imaging" in Book of Abstracts: The Fifth international school and conference on photonics & COST actions: MP1204, BM1205 and MP1205 & the Second international workshop: Control of light and matter waves propagation and localization in photonic lattices: Photonica 2015; 2015 Aug 24-28; Belgrade, Serbia (2015):140-141,
https://hdl.handle.net/21.15107/rcub_ibiss_6775 .