Your search keyword '"Kalander K"' showing total 6 results

1. Efficacy and safety of glycosphingolipid SSEA-4 targeting CAR-T cells in an ovarian carcinoma model

Author

Monzo, HJ, primary, Hyytiäinen, M, additional, Elbasani, E, additional, Kalander, K, additional, Wall, J, additional, Moyano-Galceran, L, additional, Tanjore-Ramanathan, J, additional, Jukonen, J, additional, Laakkonen, P, additional, Ristimäki, A, additional, Carlson, JW, additional, Lehti, K, additional, Salehi, S, additional, Puolakkainen, P, additional, Haglund, C, additional, Seppänen, H, additional, Leppä, S, additional, and Ojala, PM, additional

Published

2022

2. Efficacy and Safety of Glycosphingolipid SSEA-4 Targeting CAR-T Cells in an Ovarian Carcinoma Model.

Author

Monzo HJ, Kalander K, Hyytiäinen MM, Elbasani E, Wall J, Moyano-Galceran L, Tanjore Ramanathan J, Jukonen J, Laakkonen P, Ristimäki A, Carlson JW, Lehti K, Salehi S, Puolakkainen P, Haglund C, Seppänen H, Leppä S, and Ojala PM

Subjects

Humans, Female, Animals, Mice, Glycosphingolipids metabolism, Cell Line, Tumor, Immunotherapy, Adoptive, T-Lymphocytes, Carcinoma, Ovarian Epithelial metabolism, Xenograft Model Antitumor Assays, Receptors, Chimeric Antigen, Ovarian Neoplasms metabolism, Carcinoma metabolism

Abstract

Chimeric antigen receptor (CAR) T-cell immunotherapies for solid tumors face critical challenges such as heterogeneous antigen expression. We characterized stage-specific embryonic antigen-4 (SSEA-4) cell-surface glycolipid as a target for CAR T-cell therapy. SSEA-4 is mainly expressed during embryogenesis but is also found in several cancer types making it an attractive tumor-associated antigen. Anti-SSEA-4 CAR-T cells were generated and assessed preclinically in vitro and in vivo for antitumor response and safety. SSEA-4 CAR-T cells effectively eliminated SSEA-4-positive cells in all the tested cancer cell lines, whereas SSEA-4-negative cells lines were not targeted. In vivo efficacy and safety studies using NSG mice and the high-grade serous ovarian cancer cell line OVCAR4 demonstrated a remarkable and specific antitumor response at all the CAR T-cell doses used. At high T-cell doses, CAR T cell-treated mice showed signs of health deterioration after a follow-up period. However, the severity of toxicity was reduced with a delayed onset when lower CAR T-cell doses were used. Our data demonstrate the efficacy of anti-SSEA-4 CAR T-cell therapy; however, safety strategies, such as dose-limiting and/or equipping CAR-T cells with combinatorial antigen recognition should be implemented for its potential clinical translation., (©2023 American Association for Cancer Research.)

Published

2023

3. Antiviral Mechanisms of N -Phenyl Benzamides on Coxsackie Virus A9.

Author

Laajala M, Kalander K, Consalvi S, Amamuddy OS, Bishop ÖT, Biava M, Poce G, and Marjomäki V

Abstract

Enteroviruses are one of the most abundant groups of viruses infecting humans, and yet there are no approved antivirals against them. To find effective antiviral compounds against enterovirus B group viruses, an in-house chemical library was screened. The most effective compounds against Coxsackieviruses B3 (CVB3) and A9 (CVA9) were CL212 and CL213, two N -phenyl benzamides. Both compounds were more effective against CVA9 and CL213 gave a better EC 50 value of 1 µM with high a specificity index of 140. Both drugs were most effective when incubated directly with viruses suggesting that they mainly bound to the virions. A real-time uncoating assay showed that the compounds stabilized the virions and radioactive sucrose gradient as well as TEM confirmed that the viruses stayed intact. A docking assay, taking into account larger areas around the 2-and 3-fold axes of CVA9 and CVB3, suggested that the hydrophobic pocket gives the strongest binding to CVA9 but revealed another binding site around the 3-fold axis which could contribute to the binding of the compounds. Together, our data support a direct antiviral mechanism against the virus capsid and suggest that the compounds bind to the hydrophobic pocket and 3-fold axis area resulting in the stabilization of the virion.

Published

2023

4. The Pediatric COVID-19 Registry in Kuwait: Methodology and Results of Pilot Phase.

Author

Qabazard S, Al-Abdulrazzaq D, Al-Kandari H, Ayed M, Alanezi A, Al-Shammari N, Alharbash Z, Al-Khabbaz M, Kalander K, Bin-Hassan S, Alfraij A, Alghounaim M, Alsaeid K, and Al-Hashemi H

Subjects

Child, Male, Humans, Female, SARS-CoV-2, Kuwait epidemiology, Pandemics, Registries, COVID-19 epidemiology

Abstract

Objective: Establishing a pediatric COVID-19 registry in Kuwait (PCR-Q8) was deemed imperative during the pandemic to study children infected with severe acute respiratory syndrome-related coronavirus 2 (SARS-CoV-2) focusing on mode of presentation, therapeutic interventions, disease severity, and early outcomes. This manuscript describes the rapid establishment of the PCR-Q8 registry showcasing an infrastructure of the development process and presents the results of the pilot phase., Subject and Methods: The registry was developed and implemented using the general key steps from a resource titled "Registries for Evaluating Patient Outcomes: A User's Guide" as a guide for best practice, experience from a previously established pediatric diabetes registry in Kuwait and several other COVID-19 registries developed globally. During the pilot phase, a convenience sample of 120 children was included, of whom 66 (55%) were male., Results: Experience and expertise from other COVID-19 registries; guidance provided by the World Health Organization; and effective collaboration and cooperation between the stakeholders, study group, and data enterers during these challenging times were critical for the development and implementation of the registry. Our results were similar to international reports which showed that most children presented with mild disease (69.2%), majority (70.2%) had normal chest X-ray, and the most common symptom at presentation was fever (77%)., Conclusion: We anticipate the development of PCR-Q8 to be a stepping-stone for more in-depth investigation of SARS-CoV-2 infection in children in Kuwait and for the establishment of other registries., (© 2022 The Author(s). Published by S. Karger AG, Basel.)

Published

2022

5. Enteroviruses and coronaviruses: similarities and therapeutic targets.

Author

Marjomäki V, Kalander K, Hellman M, and Permi P

Subjects

Animals, Coronavirus drug effects, Coronavirus enzymology, Cysteine Endopeptidases metabolism, Enterovirus drug effects, Enterovirus enzymology, Humans, Substrate Specificity, Antiviral Agents pharmacology, Coronavirus physiology, Enterovirus physiology

Abstract

Introduction : Enteroviruses are common viruses causing a huge number of acute and chronic infections and producing towering economic costs. Similarly, coronaviruses cause seasonal mild infections, epidemics, and even pandemics and can lead to severe respiratory symptoms. It is important to develop broadly acting antiviral molecules to efficiently tackle the infections caused by thes. Areas covered : This review illuminates the differences and similarities between enteroviruses and coronaviruses and examines the most appealing therapeutic targets to combat both virus groups. Publications of both virus groups and deposited structures discovered through PubMed to March 2021 for viral proteases have been evaluated. Expert opinion : The main protease of coronaviruses and enteroviruses share similarities in their structure and function. These proteases process their viral polyproteins and thus drugs that bind to the active site have potential to target both virus groups. It is important to develop drugs that target more evolutionarily conserved processes and proteins. Moreover, it is a wise strategy to concentrate on processes that are similar between several virus families.

Published

2021

6. Detection of Viral -RNA and +RNA Strands in Enterovirus-Infected Cells and Tissues.

Author

Salmikangas S, Laiho JE, Kalander K, Laajala M, Honkimaa A, Shanina I, Oikarinen S, Horwitz MS, Hyöty H, and Marjomäki V

Abstract

The current methods to study the distribution and dynamics of viral RNA molecules inside infected cells are not ideal, as electron microscopy and immunohistochemistry can only detect mature virions, and quantitative real-time PCR does not reveal localized distribution of RNAs. We demonstrated here the branched DNA in situ hybridization (bDNA ISH) technology to study both the amount and location of the emerging -RNA and +RNA during acute and persistent enterovirus infections. According to our results, the replication of the viral RNA started 2-3 h after infection and the translation shortly after at 3-4 h post-infection. The replication hotspots with newly emerging -RNA were located quite centrally in the cell, while the +RNA production and most likely virion assembly took place in the periphery of the cell. We also discovered that the pace of replication of -RNA and +RNA strands was almost identical, and -RNA was absent during antiviral treatments. ViewRNA ISH with our custom probes also showed a good signal during acute and persistent enterovirus infections in cell and mouse models. Considering these results, along with the established bDNA FISH protocol modified by us, the effects of antiviral drugs and the emergence of enterovirus RNAs in general can be studied more effectively.

Published

2020