Jack Ghannam scite author profile

PURPOSE Patients with acute myeloid leukemia (AML) in remission remain at risk for relapse even after allogeneic hematopoietic cell transplantation (alloHCT). AML measurable residual disease (MRD) status before alloHCT has been shown to be prognostic. Whether modulation of the intensity of the alloHCT conditioning regimen in patients with AML who test positive for MRD can prevent relapse and improve survival is unknown. METHODS Ultra-deep, error-corrected sequencing for 13 commonly mutated genes in AML was performed on preconditioning blood from patients treated in a phase III clinical trial that randomly assigned adult patients with myeloid malignancy in morphologic complete remission to myeloablative conditioning (MAC) or reduced-intensity conditioning (RIC). RESULTS No mutations were detected in 32% of MAC and 37% of RIC recipients; these groups had similar survival (3-year overall survival [OS], 56% v 63%; P = .96). In patients with a detectable mutation (next-generation sequencing [NGS] positive), relapse (3-year cumulative incidence, 19% v 67%; P < .001) and survival (3-year OS, 61% v 43%; P = .02) was significantly different between the MAC and RIC arms, respectively. In multivariable analysis for NGS-positive patients, adjusting for disease risk and donor group, RIC was significantly associated with increased relapse (hazard ratio [HR], 6.38; 95% CI, 3.37 to 12.10; P < .001), decreased relapse-free survival (HR, 2.94; 95% CI, 1.84 to 4.69; P < .001), and decreased OS (HR, 1.97; 95% CI, 1.17 to 3.30; P = .01) compared with MAC. Models of AML MRD also showed benefit for MAC over RIC for those who tested positive. CONCLUSION This study provides evidence that MAC rather than RIC in patients with AML with genomic evidence of MRD before alloHCT can result in improved survival.

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Next‐generation sequencing for measurable residual disease detection in acute myeloid leukaemia

Ghannam

Dillon

Hourigan

2019

Br J Haematol

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Acute myeloid leukaemia (AML) is a blood cancer characterized by acquired genetic mutations. There is great interest in accurately establishing measurable residual disease (MRD) burden in AML patients in remission after treatment but at risk of relapse. However, inter-and intrapatient genetic diversity means that, unlike in the chronic myeloid and acute promyelocytic leukaemias, no single genetic abnormality is pathognomonic for all cases of AML MRD. Next-generation sequencing offers the opportunity to test broadly and deeply for potential genetic evidence of residual AML, and while not currently accepted for such use clinically, is likely to be increasingly used for AML MRD testing in the future.

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Baseline TP53 mutations in Adults with SCD developing Myeloid Malignancy following Hematopoietic Cell Transplantation

Ghannam

Marić

et al. 2020

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A Series of 4- and 5-Coordinate Ni(II) Complexes: Synthesis, Characterization, Spectroscopic, and DFT Studies

et al. 2018

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A series of four- and five-coordinate Ni(II) complexes Cz (Pyr)NiX (1-3 and 1·THF-3·THF), where X = Cl, Br, and I, were synthesized and fully characterized by NMR and UV-vis spectroscopy, X-ray crystallography, cyclic voltammetry, and density functional theory calculations. The solid-state structures of 1-3 reveal rare examples of seesaw Ni(II) complexes. In solution, 1-3 bind reversibly to a THF molecule to form five-coordinate adducts. The electronic transitions in the visible region (630-680 nm), attributed to LMCT bands, for 1 → 3 exhibit a bathochromic shift. The thermochromic tendency of the five-coordinate complexes implies the loss of THF coordination at elevated temperatures. Finally, the electronic properties of all Ni(II) complexes were studied by time-dependent density functional theory calculations to characterize the nature of the excited states.

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Highly multiplexed proteomic assessment of human bone marrow in acute myeloid leukemia

Çelik

Lindblad

Popescu

et al. 2020

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Acute myeloid leukemia (AML) is a genetically heterogeneous disease that is characterized by abnormal clonal proliferation of myeloid progenitor cells found predominantly within the bone marrow (BM) and blood. Recent studies suggest that genetic and phenotypic alterations in the BM microenvironment support leukemogenesis and allow leukemic cells to survive and evade chemotherapy-induced death. However, despite substantial evidence indicating the role of tumor–host interactions in AML pathogenesis, little is known about the complex microenvironment of the BM. To address this, we performed novel proteomic profiling of the noncellular compartment of the BM microenvironment in patients with AML (n = 10) and age- and sex-matched healthy control subjects (n = 10) using an aptamer-based, highly multiplexed, affinity proteomics platform (SOMAscan). We show that proteomic assessment of blood or RNA-sequencing of BM are suboptimal alternate screening strategies to determine the true proteomic composition of the extracellular soluble compartment of AML patient BM. Proteomic analysis revealed that 168 proteins significantly differed in abundance, with 91 upregulated and 77 downregulated in leukemic BM. A highly connected signaling network of cytokines and chemokines, including IL-8, was found to be the most prominent proteomic signature associated with AML in the BM microenvironment. We report the first description of significantly elevated levels of the myelosuppressive chemokine CCL23 (myeloid progenitor inhibitory factor-1) in both AML and myelodysplastic syndrome patients and perform functional experiments supportive of a role in the suppression of normal hematopoiesis. This unique paired RNA-sequencing and proteomics data set provides innovative mechanistic insights into AML and healthy aging and should serve as a useful public resource.

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Pembrolizumab and decitabine for refractory or relapsed acute myeloid leukemia

Gulley

Hughes

Marté

et al. 2022

J Immunother Cancer

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BackgroundThe powerful ‘graft versus leukemia’ effect thought partly responsible for the therapeutic effect of allogeneic hematopoietic cell transplantation in acute myeloid leukemia (AML) provides rationale for investigation of immune-based therapies in this high-risk blood cancer. There is considerable preclinical evidence for potential synergy between PD-1 immune checkpoint blockade and the hypomethylating agents already commonly used for this disease.MethodsWe report here the results of 17 H-0026 (PD-AML, NCT02996474), an investigator sponsored, single-institution, single-arm open-label 10-subject pilot study to test the feasibility of the first-in-human combination of pembrolizumab and decitabine in adult patients with refractory or relapsed AML (R-AML).ResultsIn this cohort of previously treated patients, this novel combination of anti-PD-1 and hypomethylating therapy was feasible and associated with a best response of stable disease or better in 6 of 10 patients. Considerable immunological changes were identified using T cell receptor β sequencing as well as single-cell immunophenotypic and RNA expression analyses on sorted CD3+ T cells in patients who developed immune-related adverse events (irAEs) during treatment. Clonal T cell expansions occurred at irAE onset; single-cell sequencing demonstrated that these expanded clones were predominately CD8+ effector memory T cells with high cell surface PD-1 expression and transcriptional profiles indicative of activation and cytotoxicity. In contrast, no such distinctive immune changes were detectable in those experiencing a measurable antileukemic response during treatment.ConclusionAddition of pembrolizumab to 10-day decitabine therapy was clinically feasible in patients with R-AML, with immunological changes from PD-1 blockade observed in patients experiencing irAEs.

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Personalized Single-Cell Proteogenomics to Distinguish Acute Myeloid Leukemia from Nonmalignant Clonal Hematopoiesis

Dillon

Ghannam

Nosiri

et al. 2021

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Genetic mutations associated with acute myeloid leukemia (AML) also occur in agerelated clonal hematopoiesis, often in the same individual. This makes confident assignment of detected variants to malignancy challenging. The issue is particularly crucial for AML posttreatment measurable residual disease monitoring, where results can be discordant between genetic sequencing and flow cytometry. We show here that it is possible to distinguish AML from clonal hematopoiesis and to resolve the immunophenotypic identity of clonal architecture. To achieve this, we first design patient-specific DNA probes based on patient's whole-genome sequencing and then use them for patient-personalized single-cell DNA sequencing with simultaneous single-cell antibodyoligonucleotide sequencing. Examples illustrate AML arising from DNMT3A-and TET2-mutated clones as well as independently. The ability to personalize single-cell proteogenomic assessment for individual patients based on leukemia-specific genomic features has implications for ongoing AML precision medicine efforts.SigNifiCANCe: This study offers a proof of principle of patient-personalized customized single-cell proteogenomics in AML including whole-genome sequencing-defined structural variants, currently unmeasurable by commercial "off-the-shelf" panels. This approach allows for the definition of genetic and immunophenotype features for an individual patient that would be best suited for measurable residual disease tracking.

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Intramolecular C–H Functionalization Followed by a [2_σ + 2_π] Addition via an Intermediate Nickel–Nitridyl Complex

et al. 2019

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Irradiation of a disphenoidal Ni(II) azido complex, [Cz tBu (Pyr iPr ) 2 NiN 3 ] (1), revealed an unprecedented nickel complex, [Cz tBu (Pyr iPr )(NH 2 −Pyr iPr )] (2), in >90% isolated yield. As evidenced by single-crystal Xray diffraction, 2 is produced by double intramolecular C−H activation of a putative nickel−nitridyl intermediate, [Cz tBu (Pyr iPr ) 2 Ni− ⃛ N • ]. Calculations support the generation of an intermediate with significant nitridyl radical character after the loss of N 2 , which, in turn, undergoes tandem C−H activations, leading to functionalized intermediates and products. This is an unprecedented example of transient Ni− ⃛ N • -promoted intramolecular C− H functionalization, followed by a [2 σ + 2 π ] addition, yielding bis-metallacyclic product 2. Complex 2 is also observed from the reaction of Ni(I) precursor Cz tBu (Pyr iPr ) 2 Ni (3) and Me 3 SiN 3 , suggesting a unique thermal route toward a masked nickel−nitridyl intermediate.

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Jack Ghannam

Impact of Conditioning Intensity of Allogeneic Transplantation for Acute Myeloid Leukemia With Genomic Evidence of Residual Disease

Next‐generation sequencing for measurable residual disease detection in acute myeloid leukaemia

Baseline TP53 mutations in Adults with SCD developing Myeloid Malignancy following Hematopoietic Cell Transplantation

A Series of 4- and 5-Coordinate Ni(II) Complexes: Synthesis, Characterization, Spectroscopic, and DFT Studies

Highly multiplexed proteomic assessment of human bone marrow in acute myeloid leukemia

Pembrolizumab and decitabine for refractory or relapsed acute myeloid leukemia

Personalized Single-Cell Proteogenomics to Distinguish Acute Myeloid Leukemia from Nonmalignant Clonal Hematopoiesis

Intramolecular C–H Functionalization Followed by a [2_σ + 2_π] Addition via an Intermediate Nickel–Nitridyl Complex

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Jack Ghannam

Impact of Conditioning Intensity of Allogeneic Transplantation for Acute Myeloid Leukemia With Genomic Evidence of Residual Disease

Next‐generation sequencing for measurable residual disease detection in acute myeloid leukaemia

Baseline TP53 mutations in Adults with SCD developing Myeloid Malignancy following Hematopoietic Cell Transplantation

A Series of 4- and 5-Coordinate Ni(II) Complexes: Synthesis, Characterization, Spectroscopic, and DFT Studies

Highly multiplexed proteomic assessment of human bone marrow in acute myeloid leukemia

Pembrolizumab and decitabine for refractory or relapsed acute myeloid leukemia

Personalized Single-Cell Proteogenomics to Distinguish Acute Myeloid Leukemia from Nonmalignant Clonal Hematopoiesis

Intramolecular C–H Functionalization Followed by a [2σ + 2π] Addition via an Intermediate Nickel–Nitridyl Complex

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Product

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Intramolecular C–H Functionalization Followed by a [2_σ + 2_π] Addition via an Intermediate Nickel–Nitridyl Complex