Magdalena Delgado scite author profile

Genetic ablation of the β subunit of the heterotrimeric G protein complex in agb1-2 confers defective activation of microbe-associated molecular pattern (MAMP)-triggered immunity, resulting in agb1-2 enhanced susceptibility to pathogens like the fungus Plectosphaerella cucumerina BMM. A mutant screen for suppressors of agb1-2 susceptibility (sgb) to P. cucumerina BMM identified sgb10, a new null allele (mkp1-2) of the mitogen-activated protein kinase phosphatase 1 (MKP1). The enhanced susceptibility of agb1-2 to the bacterium Pseudomonas syringae pv. tomato DC3000 and the oomycete Hyaloperonospora arabidopsidis is also abrogated by mkp1-2. MKP1 negatively balances production of reactive oxygen species (ROS) triggered by MAMPs, since ROS levels are enhanced in mkp1. The expression of RBOHD, encoding a NADPH oxidase–producing ROS, is upregulated in mkp1 upon MAMP treatment or pathogen infection. Moreover, MKP1 negatively regulates RBOHD activity, because ROS levels upon MAMP treatment are increased in mkp1 plants constitutively overexpressing RBOHD (35S::RBOHD mkp1). A significant reprograming of mkp1 metabolic profile occurs with more than 170 metabolites, including antimicrobial compounds, showing differential accumulation in comparison with wild-type plants. These results suggest that MKP1 functions downstream of the heterotrimeric G protein during MAMP-triggered immunity, directly regulating the activity of RBOHD and ROS production as well as other immune responses.

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Preparation of Primary Acute Lymphoblastic Leukemia Cells in Different Cell Cycle Phases by Centrifugal Elutriation

Delgado¹,

Kothari²,

Hittelman³

et al. 2017

JoVE

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The ability to synchronize cells has been central to advancing our understanding of cell cycle regulation. Common techniques employed include serum deprivation; chemicals which arrest cells at different cell cycle phases; or the use of mitotic shake-off which exploits their reduced adherence. However, all of these have disadvantages. For example, serum starvation works well for normal cells but less well for tumor cells with compromised cell cycle checkpoints due to oncogene activation or tumor suppressor loss. Similarly, chemically-treated cell populations can harbor drug-induced damage and show stress-related alterations. A technique which circumvents these problems is counterflow centrifugal elutriation (CCE), where cells are subjected to two opposing forces, centrifugal force and fluid velocity, which results in the separation of cells on the basis of size and density. Since cells advancing through the cycle typically enlarge, CCE can be used to separate cells into different cell cycle phases. Here we apply this technique to primary acute lymphoblastic leukemia cells. Under optimal conditions, an essentially pure population of cells in G1 phase and a highly enriched population of cells in G2/M phases can be obtained in excellent yield. These cell populations are ideally suited for studying cell cycle-dependent mechanisms of action of anticancer drugs and for other applications. We also show how modifications to the standard procedure can result in suboptimal performance and discuss the limitations of the technique. The detailed methodology presented should facilitate application and exploration of the technique to other types of cells.

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Contrasting effects of microtubule destabilizers versus stabilizers on induction of death in G1 phase of the cell cycle

Delgado

Urbaniak

Chambers

2019

Biochemical Pharmacology

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Microtubules play an essential role in the survival of primary acute lymphoblastic leukemia cells advancing through G1 phase

Delgado

Chambers

2018

Cell Cycle

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We recently reported that primary acute lymphoblastic leukemia (ALL) cells are susceptible to the microtubule depolymerizing agent vincristine (VCR) in G1 phase. This finding prompted testing another G1 phase-active compound, palbociclib (PCB), a highly selective inhibitor of cyclin-dependent kinases 4/6 (CDK4/6), alone and in combination with VCR. PCB used alone caused G1 arrest in ALL cells with no effect on cell viability, and similar results were obtained for the retinoblastoma (RB)-proficient T98G glioblastoma cell line. In contrast, HeLa cells failed to arrest in the presence of PCB, consistent with their lack of dependence on the CDK4/6-RB pathway. When ALL cells were pretreated with PCB, they became refractory to death in G1 phase induced by VCR treatment, whereas HeLa cells retained VCR sensitivity after PCB pretreatment. Immunofluorescence microscopy showed that PCB did not disrupt the microtubule network nor prevent VCR from doing so. Furthermore, ALL cells pretreated with PCB retained susceptibility to the Bcl-2/Bcl-xL inhibitor ABT-263, indicating that downstream apoptotic signaling was unaffected. When released from PCB-enforced arrest, ALL cells reinitiated cycling and regained sensitivity to VCR. ALL cells treated with cycloheximide also arrested in G1 phase and became insensitive to VCR, independently reinforcing conclusions derived from PCB-imposed arrest. Thus, primary ALL cells advancing through G1 phase are strictly dependent on functional microtubules for survival whereas microtubules are dispensable for G1-arrested cells. These findings provide novel insight into interphase microtubule function and, from a therapy standpoint, strongly caution against combining microtubule targeting agents and CDK4/6 inhibitors for ALL.

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Synthesis, antiproliferative activity and molecular docking of thiocolchicine urethanes

Majcher

Urbaniak

Maj

et al. 2018

Bioorganic Chemistry

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The response of phyllodes tumor of the breast to anticancer therapy: An in vitro and ex�vivo study

et al. 2019

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Phyllodes tumors of the breast (PTB) are uncommon stromal-epithelial neoplasms, with the main recommended treatment being surgical removal. However, even with adequate resection, the risk of recurrence in the malignant form remains as high as 40%, and there is no recognized consensus on the most effective drugs for PTB. In the present study, an ex vivo model of malignant phyllodes and derived primary cell cultures were used to evaluate the effectiveness of a panel of different drugs, including the Bcl-2/Bcl-xL inhibitor ABT-263, salinomycin (SAL), doxorubicin (DOX), paclitaxel (TAX), vincristine (VCR), colchicine (COL) and cisplatin (CIS). ABT-263, SAL and DOX were highly effective towards phyllodes spindle cells when assessed in the ex vivo model, contributing to ~98% tumor cell death. Furthermore, ABT-263 was highly selective for tumor cells in this system, and exhibited little toxic effect on adjacent normal epithelial cells. Furthermore, consistent with findings in the ex vivo model, ABT-263 was significantly less toxic towards MCF 10A non-tumorigenic breast epithelial cells compared with SAL and DOX. A conditional reprogramming strategy was subsequently used, involving Rho kinase inhibition, to successfully generate primary phyllodes tumor cells that could be cultured for several passages. The primary cells were sensitive to DOX with an IC50 of 0.40±0.07 µM in a standard viability assay and the preliminary results were obtained indicating sensitivity to ABT-263 and SAL. The present study demonstrated the feasibility of using explants and primary cells for drug discovery, selectively targeting PTB cells.

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