Your search keyword '"Aleisa, FA"' showing total 12 results

1. De novo variants disruting the HX repeat motif of ATN1 cause a non-progressive neurocognitive disorder with recognisable facial features and congenital malformations

Author

Palmer, EE, Hong, S, Al Zahrani, F, Hashem, MO, Aleisa, FA, Ahmed, HMJ, Kandula, T, Macintosh, R, Minoche, A, Puttick, C, Gayevskiy, V, Drew, AP, Cowley, MJ, Dinger, ME, Rosenfeld, JA, Xiao, R, Cho, MT, Henderson, LB, Sacoto, MJG, Begtrup, A, Hamad, M, Shinawi, M, Andrews, M, Jones, MC, Lindstrom, K, Kayani, S, Snyder, M, Villanueva, M, Schteinschnaider, A, Roscioli, T, Kirk, EP, Bye, A, Merzaban, J, Jaremko, L, Jaremko, M, Sachdev, RK, Alkuraya, FS, Arold, ST, Palmer, EE, Hong, S, Al Zahrani, F, Hashem, MO, Aleisa, FA, Ahmed, HMJ, Kandula, T, Macintosh, R, Minoche, A, Puttick, C, Gayevskiy, V, Drew, AP, Cowley, MJ, Dinger, ME, Rosenfeld, JA, Xiao, R, Cho, MT, Henderson, LB, Sacoto, MJG, Begtrup, A, Hamad, M, Shinawi, M, Andrews, M, Jones, MC, Lindstrom, K, Kayani, S, Snyder, M, Villanueva, M, Schteinschnaider, A, Roscioli, T, Kirk, EP, Bye, A, Merzaban, J, Jaremko, L, Jaremko, M, Sachdev, RK, Alkuraya, FS, and Arold, ST

Published

2019

2. Erratum: De Novo Variants Disrupting the HX Repeat Motif of ATN1 Cause a Recognizable Non-progressive Neurocognitive Syndrome (The American Journal of Human Genetics (2019) 104(3) (542–552), (S0002929719300138), (10.1016/j.ajhg.2019.01.013))

Author

Palmer, EE, Hong, S, Al Zahrani, F, Hashem, MO, Aleisa, FA, Jalal Ahmed, HM, Kandula, T, Macintosh, R, Minoche, AE, Puttick, C, Gayevskiy, V, Drew, AP, Cowley, MJ, Dinger, M, Rosenfeld, JA, Xiao, R, Cho, MT, Yakubu, SF, Henderson, LB, Guillen Sacoto, MJ, Begtrup, A, Hamad, M, Shinawi, M, Andrews, MV, Jones, MC, Lindstrom, K, Bristol, RE, Kayani, S, Snyder, M, Villanueva, MM, Schteinschnaider, A, Faivre, L, Thauvin, C, Vitobello, A, Roscioli, T, Kirk, EP, Bye, A, Merzaban, J, Jaremko, Ł, Jaremko, M, Sachdev, RK, Alkuraya, FS, Arold, ST, Palmer, EE, Hong, S, Al Zahrani, F, Hashem, MO, Aleisa, FA, Jalal Ahmed, HM, Kandula, T, Macintosh, R, Minoche, AE, Puttick, C, Gayevskiy, V, Drew, AP, Cowley, MJ, Dinger, M, Rosenfeld, JA, Xiao, R, Cho, MT, Yakubu, SF, Henderson, LB, Guillen Sacoto, MJ, Begtrup, A, Hamad, M, Shinawi, M, Andrews, MV, Jones, MC, Lindstrom, K, Bristol, RE, Kayani, S, Snyder, M, Villanueva, MM, Schteinschnaider, A, Faivre, L, Thauvin, C, Vitobello, A, Roscioli, T, Kirk, EP, Bye, A, Merzaban, J, Jaremko, Ł, Jaremko, M, Sachdev, RK, Alkuraya, FS, and Arold, ST

Abstract

(The American Journal of Human Genetics 104, 542–552; March 7, 2019) In the original version of this article published on March 7, 2019, Łukasz Jaremko's name was unfortunately misspelled as Łukas Jaremko. It appears correctly here and online. The Journal and the authors apologize for this error.

Published

2019

3. De Novo Variants Disrupting the HX Repeat Motif of ATN1 Cause a Recognizable Non-Progressive Neurocognitive Syndrome

Author

Palmer, EE, Hong, S, Al Zahrani, F, Hashem, MO, Aleisa, FA, Ahmed, HMJ, Kandula, T, Macintosh, R, Minoche, AE, Puttick, C, Gayevskiy, V, Drew, AP, Cowley, MJ, Dinger, M, Rosenfeld, JA, Xiao, R, Cho, MT, Yakubu, SF, Henderson, LB, Guillen Sacoto, MJ, Begtrup, A, Hamad, M, Shinawi, M, Andrews, MV, Jones, MC, Lindstrom, K, Bristol, RE, Kayani, S, Snyder, M, Villanueva, MM, Schteinschnaider, A, Faivre, L, Thauvin, C, Vitobello, A, Roscioli, T, Kirk, EP, Bye, A, Merzaban, J, Jaremko, Ł, Jaremko, M, Sachdev, RK, Alkuraya, FS, Arold, ST, Palmer, EE, Hong, S, Al Zahrani, F, Hashem, MO, Aleisa, FA, Ahmed, HMJ, Kandula, T, Macintosh, R, Minoche, AE, Puttick, C, Gayevskiy, V, Drew, AP, Cowley, MJ, Dinger, M, Rosenfeld, JA, Xiao, R, Cho, MT, Yakubu, SF, Henderson, LB, Guillen Sacoto, MJ, Begtrup, A, Hamad, M, Shinawi, M, Andrews, MV, Jones, MC, Lindstrom, K, Bristol, RE, Kayani, S, Snyder, M, Villanueva, MM, Schteinschnaider, A, Faivre, L, Thauvin, C, Vitobello, A, Roscioli, T, Kirk, EP, Bye, A, Merzaban, J, Jaremko, Ł, Jaremko, M, Sachdev, RK, Alkuraya, FS, and Arold, ST

Abstract

Polyglutamine expansions in the transcriptional co-repressor Atrophin-1, encoded by ATN1, cause the neurodegenerative condition dentatorubral-pallidoluysian atrophy (DRPLA) via a proposed novel toxic gain of function. We present detailed phenotypic information on eight unrelated individuals who have de novo missense and insertion variants within a conserved 16-amino-acid “HX repeat” motif of ATN1. Each of the affected individuals has severe cognitive impairment and hypotonia, a recognizable facial gestalt, and variable congenital anomalies. However, they lack the progressive symptoms typical of DRPLA neurodegeneration. To distinguish this subset of affected individuals from the DRPLA diagnosis, we suggest using the term CHEDDA (congenital hypotonia, epilepsy, developmental delay, digit abnormalities) to classify the condition. CHEDDA-related variants alter the particular structural features of the HX repeat motif, suggesting that CHEDDA results from perturbation of the structural and functional integrity of the HX repeat. We found several non-homologous human genes containing similar motifs of eight to 10 HX repeat sequences, including RERE, where disruptive variants in this motif have also been linked to a separate condition that causes neurocognitive and congenital anomalies. These findings suggest that perturbation of the HX motif might explain other Mendelian human conditions.

Published

2019

4. Correction to: Acceptance of COVID-19 vaccination among parents of children with autism and other neurodevelopmental disorders in Saudi Arabia: a cross-sectional study.

Author

Al Saad AJ, Ghadeer Alhassan M, Saleh M, Fathi Alqattan F, Aleisa FA, and Abdulmohsen HW

Published

2023

5. Acceptance of COVID-19 vaccination among parents of children with autism and other neurodevelopmental disorders in Saudi Arabia: a cross-sectional study.

Author

Al Saad AJ, Alhassan GM, Albedaiwi MS, Alqattan FF, Aleisa FA, and Alabdulmuhsin HW

Subjects

Child, Humans, COVID-19 Vaccines therapeutic use, Cross-Sectional Studies, Saudi Arabia epidemiology, Vaccination, Parents, Autistic Disorder, Autism Spectrum Disorder, COVID-19 epidemiology, COVID-19 prevention & control, Neurodevelopmental Disorders epidemiology

Abstract

Background: Acceptance of COVID-19 vaccination was noticed to be less common among parents of children with autism spectrum disorder (ASD) and other neurodevelopmental disorders. This study aimed to explore the beliefs and willingness of parents of children with neurodevelopmental disorders about COVID-19 vaccine and understand how certain factors influencing the vaccine decision-making process differ between them and other parents' groups., Methods: A cross-sectional study was conducted between August to November 2021. An Arabic online survey was distributed in August 2021 to collect the study's data. 400 parents from all the major regions in Saudi Arabia participated in and shared their beliefs about the new COVID-19 vaccination for their children., Results: Out of 400 participants, 381 of them were eligible to answer the survey (95.2%). The total number of parents of children with neurodevelopmental disorder was 158 (41.5%), was compared to responses of parents of heathy children 223 (58.5%). 85 (53.8%) of them were ready to vaccinate their children with COVID-19 vaccine. While 36 (22.8%) were hesitant, the rest 37 (23.4%) did not want to vaccinate their children at all. Only a small number 16 (10.1%) have beliefs of vaccines as a cause of their child's neurodevelopmental disorder. A total of 79 out of 131 responses were received from both parents' groups. Fear of long-term side-effects was the most common reason reported by 41 responders out of 64 (64.06%) from parents of healthy children and 38 responders out of 67 (56.71%) from parents of diagnosed children. Another reason reported by parents of younger children in both groups was the child's age. Having a healthcare relative worker was significantly associated with the vaccine decision making (p < .001)., Conclusion: The acceptance rate of COVID-19 vaccination of parents of children with neurodevelopmental disorders was low compared to the parents of healthy children in Saudi Arabia. Authorities can benefit from this study results to offer more accessible information about the vaccine importance and safety to the targeted population., (© 2023. The Author(s).)

Published

2023

6. Single-molecule imaging and microfluidic platform reveal molecular mechanisms of leukemic cell rolling.

Author

Al Alwan B, AbuZineh K, Nozue S, Rakhmatulina A, Aldehaiman M, Al-Amoodi AS, Serag MF, Aleisa FA, Merzaban JS, and Habuchi S

Subjects

Algorithms, Cell Adhesion physiology, Cell Line, Tumor, Cell Movement physiology, Cells, Cultured, Hematopoietic Stem Cells cytology, Humans, Leukemia, Myeloid, Acute pathology, Ligands, Microscopy, Electron, Scanning, Microscopy, Fluorescence methods, Models, Biological, E-Selectin metabolism, Hematopoietic Stem Cells metabolism, Leukemia, Myeloid, Acute metabolism, Microfluidics methods, Single Molecule Imaging methods

Abstract

Hematopoietic stem/progenitor cell (HSPC) and leukemic cell homing is an important biological phenomenon that occurs through key interactions between adhesion molecules. Tethering and rolling of the cells on endothelium, the crucial initial step of the adhesion cascade, is mediated by interactions between selectins expressed on endothelium to their ligands expressed on HSPCs/leukemic cells in flow. Although multiple factors that affect the rolling behavior of the cells have been identified, molecular mechanisms that enable the essential slow and stable cell rolling remain elusive. Here, using a microfluidics-based single-molecule live cell fluorescence imaging, we reveal that unique spatiotemporal dynamics of selectin ligands on the membrane tethers and slings, which are distinct from that on the cell body, play an essential role in the rolling of the cell. Our results suggest that the spatial confinement of the selectin ligands to the tethers and slings together with the rapid scanning of a large area by the selectin ligands, increases the efficiency of selectin-ligand interactions during cell rolling, resulting in slow and stable rolling of the cell on the selectins. Our findings provide novel insights and contribute significantly to the molecular-level understanding of the initial and essential step of the homing process., (© 2021. The Author(s).)

Published

2021

7. Functionalization of Magnetic Nanowires for Active Targeting and Enhanced Cell-Killing Efficacy.

Author

Alsharif NA, Aleisa FA, Liu G, Ooi BS, Patel N, Ravasi T, Merzaban JS, and Kosel J

Abstract

Conventional chemotherapy and radiation therapy are often insufficient in eliminating cancer and are accompanied by severe side effects, due to a lack in the specificity of their targeting. Magnetic iron nanowires have made a great contribution to the nanomedicine field because of their low toxicity and ease of manipulation with the magnetic field. Recently, they have been used in magnetic resonance imaging and wireless magnetomechanical and photothermal treatments. The addition of active targeting moieties to these nanowires thus creates a multifunctional tool that can boost therapeutic efficacies through the combination of different treatments toward a specific target. Colon cancer is the third most commonly occurring cancer, and 90 ± 2.5% of colon cancer cells express the glycoprotein CD44. Iron nanowires with an iron oxide surface are biocompatible, multifunctional materials that can be controlled by magnetic fields and heated by laser irradiation. Here, they were functionalized with anti-CD44 antibodies and used in a combination therapy that included magnetomechanical and photothermal treatments on colon cancer cells. The functionalization resulted in a 3-fold increase of nanowire internalization in colon cancer cells compared to control cells and did not affect the antigenicity and magnetic properties. It also increased the efficacy of killing from 35 ± 1% to more than 71 ± 2%, showing that the combination therapy was more effective than individual therapies alone.

Published

2020

8. Functional binding of E-selectin to its ligands is enhanced by structural features beyond its lectin domain.

Author

Aleisa FA, Sakashita K, Lee JM, AbuSamra DB, Al Alwan B, Nozue S, Tehseen M, Hamdan SM, Habuchi S, Kusakabe T, and Merzaban JS

Subjects

Animals, Bombyx, Cell Line, Tumor, E-Selectin isolation & purification, Humans, Immobilized Proteins metabolism, Kinetics, Ligands, Mice, Polysaccharides metabolism, Protein Domains, Protein Multimerization, Structure-Activity Relationship, E-Selectin chemistry, E-Selectin metabolism

Abstract

Selectins are key to mediating interactions involved in cellular adhesion and migration, underlying processes such as immune responses, metastasis, and transplantation. Selectins are composed of a lectin domain, an epidermal growth factor (EGF)-like domain, multiple short consensus repeats (SCRs), a transmembrane domain, and a cytoplasmic tail. It is well-established that the lectin and EGF domains are required to mediate interactions with ligands; however, the contributions of the other domains in mediating these interactions remain obscure. Using various E-selectin constructs produced in a newly developed silkworm-based expression system and several assays performed under both static and physiological flow conditions, including flow cytometry, glycan array analysis, surface plasmon resonance, and cell-rolling assays, we show here that a reduction in the number of SCR domains is correlated with a decline in functional E-selectin binding to hematopoietic cell E- and/or L-selectin ligand (HCELL) and P-selectin glycoprotein ligand-1 (PSGL-1). Moreover, the binding was significantly improved through E-selectin dimerization and by a substitution (A28H) that mimics an extended conformation of the lectin and EGF domains. Analyses of the association and dissociation rates indicated that the SCR domains, conformational extension, and dimerization collectively contribute to the association rate of E-selectin-ligand binding, whereas just the lectin and EGF domains contribute to the dissociation rate. These findings provide the first evidence of the critical role of the association rate in functional E-selectin-ligand interactions, and they highlight that the SCR domains have an important role that goes beyond the structural extension of the lectin and EGF domains., (© 2020 Aleisa et al.)

Published

2020

9. Cell-Type-Specific CRISPR/Cas9 Delivery by Biomimetic Metal Organic Frameworks.

Author

Alyami MZ, Alsaiari SK, Li Y, Qutub SS, Aleisa FA, Sougrat R, Merzaban JS, and Khashab NM

Subjects

Animals, HeLa Cells, Heterografts, Humans, MCF-7 Cells, Mice, Biomimetics, CRISPR-Cas Systems, Metal-Organic Frameworks chemistry

Abstract

Effective and cell-type-specific delivery of CRISPR/Cas9 gene editing elements remains a challenging open problem. Here we report the development of biomimetic cancer cell coated zeolitic imidazolate frameworks (ZIFs) for targeted and cell-specific delivery of this genome editing machinery. Coating ZIF-8 that is encapsulating CRISPR/Cas9 (CC-ZIF) with a cancer cell membrane resulted in the uniformly covered C 3 -ZIF (cell membrane type) . Incubation of C 3 -ZIF MCF with MCF-7, HeLa, HDFn, and aTC cell lines showed the highest uptake by MCF-7 cells and negligible uptake by the healthy cells (i.e., HDFn and aTC). As to genome editing, a 3-fold repression in the EGFP expression was observed when MCF-7 were transfected with C 3 -ZIF MCF compared to 1-fold repression in the EGFP expression when MCF-7 were transfected with C 3 -ZIF HELA . In vivo testing confirmed the selectivity of C 3 -ZIF MCF to accumulate in MCF-7 tumor cells. This supports the ability of this biomimetic approach to match the needs of cell-specific targeting, which is unquestionably the most critical step in the future translation of genome editing technologies.

Published

2020

10. De Novo Variants Disrupting the HX Repeat Motif of ATN1 Cause a Recognizable Non-progressive Neurocognitive Syndrome.

Author

Palmer EE, Hong S, Al Zahrani F, Hashem MO, Aleisa FA, Jalal Ahmed HM, Kandula T, Macintosh R, Minoche AE, Puttick C, Gayevskiy V, Drew AP, Cowley MJ, Dinger M, Rosenfeld JA, Xiao R, Cho MT, Yakubu SF, Henderson LB, Guillen Sacoto MJ, Begtrup A, Hamad M, Shinawi M, Andrews MV, Jones MC, Lindstrom K, Bristol RE, Kayani S, Snyder M, Villanueva MM, Schteinschnaider A, Faivre L, Thauvin C, Vitobello A, Roscioli T, Kirk EP, Bye A, Merzaban J, Jaremko Ł, Jaremko M, Sachdev RK, Alkuraya FS, and Arold ST

Published

2019

11. Endosomal Escape and Delivery of CRISPR/Cas9 Genome Editing Machinery Enabled by Nanoscale Zeolitic Imidazolate Framework.

Author

Alsaiari SK, Patil S, Alyami M, Alamoudi KO, Aleisa FA, Merzaban JS, Li M, and Khashab NM

Subjects

Animals, CHO Cells, Cricetulus, Particle Size, CRISPR-Cas Systems physiology, Endosomes metabolism, Gene Editing, Imidazoles chemistry, Nanoparticles chemistry, Zeolites chemistry

Abstract

CRISPR/Cas9 is a combined protein (Cas9) and an engineered single guide RNA (sgRNA) genome editing platform that offers revolutionary solutions to genetic diseases. It has, however, a double delivery problem owning to the large protein size and the highly charged RNA component. In this work, we report the first example of CRISPR/Cas9 encapsulated by nanoscale zeolitic imidazole frameworks (ZIFs) with a loading efficiency of 17% and enhanced endosomal escape promoted by the protonated imidazole moieties. The gene editing potential of CRISPR/Cas9 encapsulated by ZIF-8 (CC-ZIFs) is further verified by knocking down the gene expression of green fluorescent protein by 37% over 4 days. The nanoscale CC-ZIFs are biocompatible and easily scaled-up offering excellent loading capacity and controlled codelivery of intact Cas9 protein and sgRNA.

Published

2018

12. Not just a marker: CD34 on human hematopoietic stem/progenitor cells dominates vascular selectin binding along with CD44.

Author

AbuSamra DB, Aleisa FA, Al-Amoodi AS, Jalal Ahmed HM, Chin CJ, Abuelela AF, Bergam P, Sougrat R, and Merzaban JS

Abstract

CD34 is routinely used to identify and isolate human hematopoietic stem/progenitor cells (HSPCs) for use clinically in bone marrow transplantation, but its function on these cells remains elusive. Glycoprotein ligands on HSPCs help guide their migration to specialized microvascular beds in the bone marrow that express vascular selectins (E- and P-selectin). Here, we show that HSPC-enriched fractions from human hematopoietic tissue expressing CD34 (CD34 pos ) bound selectins, whereas those lacking CD34 (CD34 neg ) did not. An unbiased proteomics screen identified potential glycoprotein ligands on CD34 pos cells revealing CD34 itself as a major vascular selectin ligand. Biochemical and CD34 knockdown analyses highlight a key role for CD34 in the first prerequisite step of cell migration, suggesting that it is not just a marker on these cells. Our results also entice future potential strategies to investigate the glycoforms of CD34 that discriminate normal HSPCs from leukemic cells and to manipulate CD34 neg HSPC-enriched bone marrow or cord blood populations as a source of stem cells for clinical use., Competing Interests: Conflict-of-interest disclosure: The authors declare no competing financial interests.

Published

2017