KISCOi001-A is a healthy feeder-free and fully characterized human induced pluripotent stem (iPS) cell line cultured under xeno-free and defined conditions. The cell line is generated from normal ...human foreskin fibroblasts with non-integrating episomal plasmid vectors encoding OCT4, SOX2, KLF4, NANOG, LIN28, nontransforming L-MYC and dominant negative p53. The generated iPS cells are transgene-free and their pluripotency is confirmed by the expression of stem cell markers and capacity to differentiate into the cells of ectoderm, endoderm and mesoderm while their identity and karyotype stability is confirmed with Genomic assays.
The p.G2019S mutation of the leucine-rich repeat kinase 2 (LRRK2) has been identified as the most prevalent genetic cause of familial and sporadic Parkinson's disease (PD). The Cre-LoxP recombination ...system has been used to correct the LRRK2-G2019S mutation in patient derived human induced pluripotent stem cells (hiPSCs) in order to generate isogenic controls. However, the remaining LoxP site can influence gene expression. In this study, we report the generation of a footprint-free LRRK2-G2019S isogenic hiPS cell line edited with the CRISPR/Cas9 and piggyBac technologies. We observed that the percentage of Tyrosine Hydroxylase (TH) positive neurons with a total neurite length of >2000μm was significantly reduced in LRRK2-G2019S dopaminergic (DA) neurons. The average branch number in LRRK2-G2019S DA neurons was also decreased. In addition, we have shown that in vitro TH positive neurons with a total neurite length of >2000μm were positive for Serine 129 phosphorylated (S129P) alpha-Synuclein (αS) and we hypothesize that S129P-αS plays a role in the maintenance or formation of long neurites. In summary, our footprint-free LRRK2-G2019S isogenic cell lines allow standardized, genetic background independent, in vitro PD modeling and provide new insights into the role of LRRK2-G2019S and S129P-αS in the pathogenesis of PD.
•Generation the first footprint-free LRRK2-G2019S isogenic cell line•LRRK2-G2019S reduces dopaminergic neurite complexity.•Detection of phosphorylated alpha-Synuclein in neurons with particularly long neurites•Reduction in the amount of S129P-a-Syn neurites upon presence of LRRK2-G2019S•Rescue of Parkinson's disease associated cellular phenotypes by drug treatment.
Genome editing and human induced pluripotent stem cells hold great promise for the development of isogenic disease models and the correction of disease-associated mutations for isogenic tissue ...therapy. CRISPR-Cas9 has emerged as a versatile and simple tool for engineering human cells for such purposes. However, the current protocols to derive genome-edited lines require the screening of a great number of clones to obtain one free of random integration or on-locus non-homologous end joining (NHEJ)-containing alleles. Here, we describe an efficient method to derive biallelic genome-edited populations by the use of fluorescent markers. We call this technique FACS-assisted CRISPR-Cas9 editing (FACE). FACE allows the derivation of correctly edited polyclones carrying a positive selection fluorescent module and the exclusion of non-edited, random integrations and on-target allele NHEJ-containing cells. We derived a set of isogenic lines containing Parkinson's-disease-associated mutations in α-synuclein and present their comparative phenotypes.
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•Fluorescent protein-SNP pairs enable deterministic genotypes for genome editing•Repetitive elements modulate off-targeting random integration•Parkinson's disease NESCs present impaired mitochondrial energy performance
In this article, Arias-Fuenzalida and colleagues show a platform to achieve deterministic genotypes for genome editing. The combinatorial use of fluorescent proteins and defined SNPs facilitates the genome editing endeavor. Using neuroepithelial stem cells, they demonstrate early mitochondrial phenotypes in SNCA mutants.
Emerging evidence suggests that Parkinson's disease (PD), besides being an age-associated disorder, might also have a neurodevelopment component. Disruption of mitochondrial homeostasis has been ...highlighted as a crucial cofactor in its etiology. Here, we show that PD patient-specific human neuroepithelial stem cells (NESCs), carrying the LRRK2-G2019S mutation, recapitulate key mitochondrial defects previously described only in differentiated dopaminergic neurons. By combining high-content imaging approaches, 3D image analysis, and functional mitochondrial readouts we show that LRRK2-G2019S mutation causes aberrations in mitochondrial morphology and functionality compared with isogenic controls. LRRK2-G2019S NESCs display an increased number of mitochondria compared with isogenic control lines. However, these mitochondria are more fragmented and exhibit decreased membrane potential. Functional alterations in LRRK2-G2019S cultures are also accompanied by a reduced mitophagic clearance via lysosomes. These findings support the hypothesis that preceding mitochondrial developmental defects contribute to the manifestation of the PD pathology later in life.
•Mitochondrial gene expression is altered in NESCs carrying the LRRK2-G2019 mutation•LRRK2-G2019S mutation induces alterations in mitochondrial morphology in NESCs•Mitophagy is affected in PD-specific NESCs carrying the LRRK2-G2019S mutation•Mitochondrial phenotypes in NESC are rescued by genetic correction of LRRK2-G2019S
Walter, Bolognin and colleagues show the detection of mitochondrial phenotypes in NESCs derived from Parkinson's disease (PD) patients carrying the LRRK2-G2019S mutation. This supports the use of stem cells as a relevant model to study PD-associated mitochondrial defects associated to PD.
Autophagic processes play a central role in cellular homeostasis. In pathological conditions, the flow of autophagy can be affected at multiple and distinct steps of the pathway. Current analyses ...tools do not deliver the required detail for dissecting pathway intermediates. The development of new tools to analyze autophagic processes qualitatively and quantitatively in a more straightforward manner is required. Defining all autophagy pathway intermediates in a high-throughput manner is technologically challenging and has not been addressed yet. Here, we overcome those requirements and limitations by the developed of stable autophagy and mitophagy reporter-iPSC and the establishment of a novel high-throughput phenotyping platform utilizing automated high-content image analysis to assess autophagy and mitophagy pathway intermediates.
The juvenile form of neuronal ceroid Lipofuscinosis (JNCL) is the most common form within this group of rare lysosomal storage disorders, causing pediatric neurodegeneration. The genetic disorder, ...which is caused by recessive mutations affecting the CLN3 gene, features progressive vision loss, cognitive and motor decline and other psychiatric conditions, seizure episodes, leading to premature death. Animal models have traditionally aid the understanding of the disease mechanisms and pathology and are very relevant for biomarker research and therapeutic testing. Nevertheless, there is a need for establishing reliable and predictive human cellular models to study the disease. Since patient material, particularly from children, is scarce and difficult to obtain, we generated an engineered a CLN3-mutant isogenic human induced pluripotent stem cell (hiPSC) line carrying the c.1054C → T pathologic variant, using state of the art CRISPR/Cas9 technology. To prove the suitability of the isogenic pair to model JNCL, we screened for disease-specific phenotypes in non-neuronal two-dimensional cell culture models as well as in cerebral brain organoids. Our data demonstrates that the sole introduction of the pathogenic variant gives rise to classical hallmarks of JNCL in vitro. Additionally, we discovered an alteration of the splicing caused by this particular mutation. Next, we derived cerebral organoids and used them as a neurodevelopmental model to study the particular effects of the CLN3
mutation during brain formation in the disease context. About half of the mutation -carrying cerebral organoids completely failed to develop normally. The other half, which escaped this severe defect were used for the analysis of more subtle alterations. In these escapers, whole-transcriptome analysis demonstrated early disease signatures, affecting pathways related to development, corticogenesis and synapses. Complementary metabolomics analysis confirmed decreased levels of cerebral tissue metabolites, some particularly relevant for synapse formation and neurotransmission, such as gamma-amino butyric acid (GABA). Our data suggests that a mutation in CLN3 severely affects brain development. Furthermore, before disease onset, disease -associated neurodevelopmental changes, particular concerning synapse formation and function, occur.
Primary immunodeficiency (PID) comprises a heterogeneous group of over 330 genetic disorders, caused mainly by single-gene mutations, such as CD70. We generated human induced pluripotent stem cell ...lines, PHAi003-A and PHAi003-B, from a PID patient carrying the homozygous frameshift CD70 mutation c.250delT. The CD70 c.250delT genotype results in a complete loss of expression variant. This patient is one of the five CD70 deficient individuals described to date, and presented hypogammaglobulinemia, EBV associated Hodgkin's lymphoma and susceptibility to other viral infections. The PHAi003-A and PHAi003-B lines are a unique resource for PID modeling and studying CD70-mediated immunity in human cells.
Selective immunoglobulin-A deficiency (IgAD) is the most common primary immunodeficiency (PID) in the Western world and results in higher susceptibility to infections, autoimmune disorders and ...malignancies. We generated human induced pluripotent stem cell lines from two patients with selective IgAD, PHAi001 and PHAi002. Patient samples were reprogrammed using non-integrative based methods. Pluripotency of the PHAi001 and PHAi002 cell lines was confirmed by their expression of stem cell markers and capacity to differentiate into cells of the three germ layers. The PHAi001 and PHAi002 lines are a unique resource for experimental modeling of selective IgAD and associated disorders.
Abstract
Background
Taxane-induced peripheral neuropathy (TIPN) is a dose-limiting adverse effect. Ganglioside-monosialic acid (GM1) functions as a neuroprotective factor. We assessed the effects of ...GM1 on the prevention of TIPN in breast cancer patients.
Methods
We conducted a randomized, double-blind, placebo-controlled trial including 206 patients with early-stage breast cancer planning to receive taxane-based adjuvant chemotherapy with a follow-up of more than 1 year. Subjects were randomly assigned to receive GM1 (80 mg, day −1 to day 2) or placebo. The primary endpoint was the Functional Assessment of Cancer Treatment Neurotoxicity subscale score after four cycles of chemotherapy. Secondary endpoints included neurotoxicity evaluated by National Cancer Institute Common Terminology Criteria for Adverse Events Version 4.0 and the Eastern Cooperative Oncology Group neuropathy scale. All statistical tests were two-sided.
Results
In 183 evaluable patients, the GM1 group reported better mean Functional Assessment of Cancer Treatment Neurotoxicity subscale scores than patients in the placebo group after four cycles of chemotherapy (43.27, 95% confidence interval CI = 43.05 to 43.49 vs 34.34, 95% CI = 33.78 to 34.89; mean difference = 8.96, 95% CI = 8.38 to 9.54, P < .001). Grade 1 or higher peripheral neurotoxicity in Common Terminology Criteria for Adverse Events v4.0 scale was statistically significantly lower in the GM1 group (14.3% vs 100.0%, P < .001). Additionally, the GM1 group had a statistically significantly lower incidence of grade 1 or higher neurotoxicity assessed by Eastern Cooperative Oncology Group neuropathy scale sensory neuropathy (26.4% vs 97.8%, P < .001) and motor neuropathy subscales (20.9% vs 81.5%, P < .001).
Conclusions
The treatment with GM1 resulted in a reduction in the severity and incidence of TIPN after four cycles of taxane-containing chemotherapy in patients with breast cancer.
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