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Clonal trajectories and cellular dynamics of myeloid neoplasms with SF3B1 mutations

Awada, Hassan ; Kerr, Cassandra M. ; Durmaz, Arda ; [et al.]

Springer Science and Business Media LLC ; 2021

In: Leukemia Vol. 35, No. 11 ( 2021-11), p. 3324-3328

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In: Leukemia, Springer Science and Business Media LLC, Vol. 35, No. 11 ( 2021-11), p. 3324-3328

Type of Medium: Online Resource

ISSN: 0887-6924 , 1476-5551

URL: Article

DOI: 10.1038/s41375-021-01176-7

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WA 15000

Language: English

Publisher: Springer Science and Business Media LLC

Publication Date: 2021

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Clinical and basic implications of dynamic T cell receptor clonotyping in hematopoietic cell transplantation

Pagliuca, Simona ; Gurnari, Carmelo ; Hong, Sanghee ; [et al.]

American Society for Clinical Investigation ; 2021

In: JCI Insight Vol. 6, No. 13 ( 2021-7-8)

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In: JCI Insight, American Society for Clinical Investigation, Vol. 6, No. 13 ( 2021-7-8)

Type of Medium: Online Resource

ISSN: 2379-3708

URL: Article

DOI: 10.1172/jci.insight.149080

Language: English

Publisher: American Society for Clinical Investigation

Publication Date: 2021

detail.hit.zdb_id: 2874757-4

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Pagliuca, Simona ; Gurnari, Carmelo ; Awada, Hassan ; [et al.]

American Society of Hematology ; 2021

In: Blood Vol. 138, No. 26 ( 2021-12-30), p. 2781-2798

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In: Blood, American Society of Hematology, Vol. 138, No. 26 ( 2021-12-30), p. 2781-2798

Abstract: Idiopathic aplastic anemia (IAA) is a rare autoimmune bone marrow failure (BMF) disorder initiated by a human leukocyte antigen (HLA)-restricted T-cell response to unknown antigens. As in other autoimmune disorders, the predilection for certain HLA profiles seems to represent an etiologic factor; however, the structure-function patterns involved in the self-presentation in this disease remain unclear. Herein, we analyzed the molecular landscape of HLA complexes of a cohort of 300 IAA patients and almost 3000 healthy and disease controls by deeply dissecting their genotypic configurations, functional divergence, self-antigen binding capabilities, and T-cell receptor (TCR) repertoire specificities. Specifically, analysis of the evolutionary divergence of HLA genotypes (HED) showed that IAA patients carried class II HLA molecules whose antigen-binding sites were characterized by a high level of structural homology, only partially explained by specific risk allele profiles. This pattern implies reduced HLA binding capabilities, confirmed by binding analysis of hematopoietic stem cell (HSC)-derived self-peptides. IAA phenotype was associated with the enrichment in a few amino acids at specific positions within the peptide-binding groove of DRB1 molecules, affecting the interface HLA-antigen-TCR β and potentially constituting the basis of T-cell dysfunction and autoreactivity. When analyzing associations with clinical outcomes, low HED was associated with risk of malignant progression and worse survival, underlying reduced tumor surveillance in clearing potential neoantigens derived from mechanisms of clonal hematopoiesis. Our data shed light on the immunogenetic risk associated with IAA etiology and clonal evolution and on general pathophysiological mechanisms potentially involved in other autoimmune disorders.

Type of Medium: Online Resource

ISSN: 0006-4971 , 1528-0020

URL: Article

DOI: 10.1182/blood.2021012900

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XA 33000

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Language: English

Publisher: American Society of Hematology

Publication Date: 2021

detail.hit.zdb_id: 1468538-3

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Spectrum of Molecular Modes of Immune Escape in Idiopathic Aplastic Anemia and Paroxysmal Nocturnal Hemoglobinuria

Pagliuca, Simona ; Gurnari, Carmelo ; Hercus, Colin ; [et al.]

American Society of Hematology ; 2021

In: Blood Vol. 138, No. Supplement 1 ( 2021-11-05), p. 603-603

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In: Blood, American Society of Hematology, Vol. 138, No. Supplement 1 ( 2021-11-05), p. 603-603

Abstract: The pathogenesis of idiopathic aplastic anemia (IAA) involves a human leukocyte antigen (HLA)-restricted T-cell autoreactivity against unknown antigens preferentially distributed on early hematopoietic stem and progenitor cells (HSPCs). Genetically acquired GPI-anchor and HLA deficiency have been both linked to clonal immune evasion from T-cell pressure. We hypothesized that, in analogy to anti-tumor adaptive immune evasion, pathophysiology of immune escape in IAA originates together with a broader dysfunction of antigen presentation/processing machinery and immune regulatory proteins, beyond HLA molecules, as an effect of immune pressure under T-cell attack. This initial immune reaction would produce up-modulation of these pathways, ultimately promoting the acquisition of mutations and expansion of immune resistant clones. To test this hypothesis, we first performed single-cell RNAseq analysis in HSPCs in IAA patients at disease manifestation, 1 which showed signatures of dysfunction of antigen presentation machinery, with up-regulation of most of the HLA molecules, proteasome subunits and endoplasmic reticulum related organelle transporters. Strikingly, DRB1 was among the top 3 genes upregulated in IAA patients compared to controls (q-values 1.23E-35; Fig.1A), underscoring the etiological impact that antigen presentation via this locus has in the initiation of autoimmune process. Mild upregulation was also seen in DQB1 and B loci (q-values 4.7E-07 and 2.1E-10, respectively). We then studied molecular escape mechanisms by genotyping 204 IAA and PNH patients, with either a targeted or whole genome sequencing (WGS) platform. By application of a newly in-house developed bioinformatic pipeline, we detected somatic aberrations in HLA region involving both class I and II alleles in 36% of IAA patients including point mutations, frameshift insertions or deletions and copy number variations inducing allelic loss. B*14:02 and A*02:01 emerged as the most commonly mutated class I alleles with a few hotspot mutations identified, particularly in exon 1 (c.19C & gt;T, p.R7X, Fig.1B,C), confirming previous reports. 2,3 In class II, DQB1 and DPA1 loci were frequently targeted by fine mutational events, while more complex allelic loss phenomena interested prevalently DRB1 and DQB1 loci. Those aberrations were identified at diagnosis (35%), during disease follow-up (33%) or at the time of malignant evolution (27%), with higher clonal size in specimens collected during the course of the disease (median VAF 3% [2-27%] at diagnosis, 8% [2-98%] at follow-up, and 2.2% [2.0-6.1%] at evolution). Of 41 patients with at least one HLA aberration and characterized with an extended genotypic study, only 6 harbored also & gt;1 somatic myeloid mutation (14%), versus 30/90 (33%) not affected by somatic hits in HLA (p=.026; Fig.1D). HLA aberrant cases also showed lower number of somatic myeloid mutations (OR=0.44; p=.0262) with driver hits rarely present (Fig.1E). In terms of PIGA mutations, an increased PIGA mosaicism was observed in the HLA mutant group, underlying that both processes have similar pathophysiologic origin as a product of the immune selection pressure (OR: 1.55 [95%CI 1.1-4.2], p=.0201). We then investigated, through WGS of 53 patients, the presence of somatic mutations in other immune genes which could be triggered by immune pressure. Hence, in 47% of the cases we were able to find pathogenic or likely pathogenic hits in genes encompassing proteasome complex, vesicle trafficking, transactivators and interferon regulatory factors, including CREBBP, TAP1, CIITA, PSMC5, PSMB4 and IRF9 (Fig.1F), whose pathogenicity was computationally assessed through recently implemented somatic classifiers. 4 Those hits were not mutually exclusive neither with HLA nor with PIGA mutations, however their VAF was significantly lower compared to concurrent HLA and PIGA lesions, underscoring their lower driver potential within the immune escape environment compared to PNH and HLA-lacking clones. Altogether our results describe the diversity of molecular and immune events taking place in IAA and PNH. Our study suggests that following initial immune insult, clonal architecture of residual hematopoiesis can be dominated by multiple modes of immune escape, agonistically participating to a mechanism of "adaptive" clonal recovery, likely in opposition to the "maladaptive" malignant progression. Figure 1 Figure 1. Disclosures Maciejewski: Alexion: Consultancy; Regeneron: Consultancy; Novartis: Consultancy; Bristol Myers Squibb/Celgene: Consultancy.

Type of Medium: Online Resource

ISSN: 0006-4971 , 1528-0020

URL: Article

DOI: 10.1182/blood-2021-151965

RVK:

XA 33000

RVK:

XA 10000

Language: English

Publisher: American Society of Hematology

Publication Date: 2021

detail.hit.zdb_id: 1468538-3

detail.hit.zdb_id: 80069-7

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Double Genetic Hits and Subclonal Mosaicism in the Ras Signaling Pathway in Myeloid Neoplasia

Kongkiatkamon, Sunisa ; Nagata, Yasunobu ; Adema, Vera ; [et al.]

American Society of Hematology ; 2020

In: Blood Vol. 136, No. Supplement 1 ( 2020-11-5), p. 34-35

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In: Blood, American Society of Hematology, Vol. 136, No. Supplement 1 ( 2020-11-5), p. 34-35

Abstract: The high prevalence of oncogenic mutations in the RAS family genes including their down or upstream partners (e.g., NRAS, KRAS, PTPN11, RIT1α) has strong implication in abnormal Ras signaling in the pathogenesis of myeloid neoplasia (MN). For many years RAS mutations have been considered non-targetable. However, recently multiple targeted agents have been introduced as possible future therapies. While common in JMML, RAS mutations are rarely seen in adult MN as the ancestral event. Instead they serve as subclonal hits. To that end, the clinical impact of RAS mutations has been controversial: whereas some studies did not find prognostic impact, others demonstrated that these mutations may confer a poor prognosis. Nevertheless, molecular analysis of core binding factor AML patients showed the coexistence of RAS clones harboring independent hits targeting the same pathway. We stipulate that occurrence of RAS mutations is not random and reasoned that studying cases with multiple RAS mutant subclones may reveal distinct molecular or etio-pathologic background attracting the emergence of RAS mutations as a way to augment MYC activity as a ubiquitous pathway of clonal progression. In a review of a molecular collection of data of a cohort of MN patients (n=1876) including MDS (n=692), MDS/MPN (n=282), AML (pAML, 710; sAML, 192) we found RAS mutations in 21% (403/1876) of the patients. Among them we encountered a subgroup of patients (9%; 38/403) harboring multiple RAS mutations. These multiple hits affected PTPN11, NRAS, KRAS and RIT1-α. Most of these multiple RAS mutants represented a subclonal mosaicism rather than biallelic subclones as indicated by single cell DNA sequencing. Three patients were assessed serially (2 patients/ 2 time points and 1 patient/ 5 time points). In one case NRAS (VAF-24%) and PTPN11 (VAF-28%) were acquired at the time of AML evolution. In an MDS/MPN-U, NRAS/KRAS were both detected at diagnosis with a VAF of 1% and 12% each. Both clones increased over 2 years' time span with NRAS ramping to 43% and reaching KRAS (50%). In the 3rd case, samples were collected over a period of 5 years with NRAS and PTPN11 being detected only at the later time point (VAF of 5% and 15%, respectively). In contrast to competing RAS subclones in adults, our historical cohort of JMML showed that at least one RAS mutation was found in 89% (82/92) of the patients as ancestral events and in mutually exclusive manner while biallelic RAS mutations occurred in 15% (12/82) of the cohort. In adult MN, the most common subclonal mosaicism was encountered in NRAS/KRAS (63%; 24/38), while less fraction of patients had competing subclonal mutations in NRAS (26%; 10/38) or in KRAS (8%; 3/38). Most of these mutations were found in canonical sites (NRAS: G12D/S/A/C, G13D/R/V, Q61A/H/R; KRAS: G12D/A/R, G13D/R/V, A146P/T). Patients carrying RAS mutations had significantly higher WBCs (20.5 vs 7.2, P & lt;.001) consistent with the role of RAS in proliferation, possibly via augmentation of MYC. Isolated chromosome 7 abnormalities were more common among RAS mutant carriers who otherwise showed less complex karyotypes. RAS mutations were mostly enriched in MDS/MPN (26%) while absent in sAML suggesting the impact of these lesions on OS but not on PFS. Analysis of clonal architecture showed that accumulation of RAS subclones was most commonly related to the presence TET2 (17% vs. 8%) and EZH2 (6% vs. 1%) compared to WT. At the time of AML evolution, the presence of RAS mutation did not correlate with OS (18 vs. 13 mo., P=0.07). However, median OS was shorter in MDS and MDS/MPN carrying multiple RAS mutations compared to WT (10 vs. 30 mo., P=0.005) again supporting the contention that these clones may be markers of non-progression-related mortality. In sum, our study supports the notion that ancestral RAS hits are common in childhood MN with a hereditary component whereby the progression is related to the acquisition of secondary hits in biallelic configuration. In contrast in adult and elderly MN, specific genetic background predisposes to RAS mutant mosaicism such as ancestral TET2 and EZH2 lesions and MPN features reflecting the direction of selection pressure towards accumulation of multiple RAS pathway hits. Lack of the gene/dose effect on progression indicates, that in contrast to the compound heterozygous RAS childhood diseases, RAS mutant mosaicism reflects branching rather than linear evolution mode. Disclosures Sekeres: Pfizer: Consultancy; Takeda/Millenium: Consultancy; BMS: Consultancy. Carraway:Abbvie: Other: Independent Advisory Committe (IRC); ASTEX: Other: Independent Advisory Committe (IRC); Takeda: Other: Independent Advisory Committe (IRC); Stemline: Consultancy, Speakers Bureau; Jazz: Consultancy, Speakers Bureau; BMS: Consultancy, Other: Research support, Speakers Bureau; Novartis: Consultancy, Speakers Bureau. Saunthararajah:EpiDestiny: Consultancy, Current equity holder in private company, Patents & Royalties: University of Illinois at Chicago. Patel:Alexion: Other: educational speaker. Maciejewski:Alexion, BMS: Speakers Bureau; Novartis, Roche: Consultancy, Honoraria.

Type of Medium: Online Resource

ISSN: 0006-4971 , 1528-0020

URL: Article

DOI: 10.1182/blood-2020-143210

RVK:

XA 33000

RVK:

XA 10000

Language: English

Publisher: American Society of Hematology

Publication Date: 2020

detail.hit.zdb_id: 1468538-3

detail.hit.zdb_id: 80069-7

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The Genomic Landscape of Myeloid Neoplasms Evolved from AA/PNH

Gurnari, Carmelo ; Pagliuca, Simona ; Patel, Bhumika J. ; [et al.]

American Society of Hematology ; 2020

In: Blood Vol. 136, No. Supplement 1 ( 2020-11-5), p. 2-2

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In: Blood, American Society of Hematology, Vol. 136, No. Supplement 1 ( 2020-11-5), p. 2-2

Abstract: Up to 15% of AA patients (pts) treated conservatively with immunosuppression will evolve to myeloid neoplasia (MN), either MDS or AML, over a median time of 10 years regardless of response (0-18 years; n=238). The pathogenesis of MN secondary to AA is diverse and will often include antecedent clonal facilitating events that herald progression. Minor clones have been described in AA, some of which are not contributory to later evolution while other may result in subsequent progression. MDS evolution in inherited bone marrow failure (BMF) syndromes suggests that germ line (GL) alterations can be predisposing. In addition, progression to MN may reflect immune escape due to selection pressure e.g., through acquisition of HLA mutations. Here, we studied the molecular landscape of MN arising from AA, to better understand its pathogenesis and ultimately to develop measures of early detection, prevention, and therapeutic strategies. Among 350 pts diagnosed with AA and PNH, 38 (11%) developed a secondary MN (sMN). Median age at AA/PNH diagnosis was 61 years (15-76). Almost all of pts who underwent transformation (89%) received a 1st line treatment consisting of ATG+CsA in 85% of cases (ORR 59%; 21% CR and 38% PR) and 47% received more than one form of treatment, suggesting a lack/incomplete response or relapse. MDS was the most frequent diagnosis at evolution (77%), followed by AML (21%) and MPN (2%). Myeloid evolution was less common in pts with moderate AA (7% vs 14% in severe) or in the presence of a PNH clone (21% vs. 52% in non-progressors, p=.0003). First we investigated GL alterations classified as Tier1 (9/38 pts) and Tier2 (11/38) based on their pathophysiological impact. Tier1 variants included NF1, CBLC, SBDS (n=2), and SAMD9L and overall were more frequently detected in del(7q) pts (76%, p=.0001). Tier2 included FA variants (BRCA2, FANCI, FANCD2; n=3). Of note, in sMN Tier1 variants were detected in 24% vs. 8% in non-evolved cases (p=.008) and none had concomitant Tier1/Tier2 configuration (0% vs. 9% in non-progressors, p=.05) or GATA2 variants. Cytogenetic abnormalities were most frequent at the time of MN progression in 83% of cases, with chr. 7 alterations present in 47% of cases (-7, 35%; del(7q),12%), followed by complex karyotype (CK, 13%), involving chr.7 in 75% of cases. By comparison, -7/del(7q) are present in 7.5% of cases of our internal cohort of primary MN (p=.0001), but no differences in -7 and del7q distribution were seen. A total of 148 somatic variants (myeloid and HLA panels) were found at the time of evolution in 34/38 sMN pts, with an average of 4.4 mutations/patient. ASXL1 (29% vs 14%, p=.02) and SETBP1 (15% vs 3%, p=.005) hits were more frequent in evolved cases while TET2 and TP53 mutations were less common as compared with pMN. Of note, sMN pts with CK harbored ASXL1 and TP53 mutations in 50% of cases. In a cross-sectional analysis of evolved cases studied at AA onset (n=17) and at myeloid evolution (n=35), somatic lesions in TET2, DNMT3A and ASXL1 genes were found in 5, 1 and 3 pts at baseline, respectively. If variants in TET2 and DNMT3A likely reflect antecedent CHIP, ASXL1 variants may have a role in driving myeloid progression as shown by the higher mutation rate in post AA cases. This hypothesis is further supported by the acquisition of subclonal chr7 abnormalities and by the overall higher clonal burden at sMN onset (median VAF 24% vs 43% respectively, p=.0001). When comparing pts with chr7 abnormalities with de novo counterpart, in sMN genes appeared most commonly mutated in ASXL1 (p=.02), SETBP1 (p=.0007), ETV6 (p=.02) and NF1 (p=.02), while TP53 mutations were less common.The intrinsic peculiarity of this -7/del(7q) sMN subset is also underlined by a different median survival time (12 vs 48 months in sMN vs pMN, respectively, p=.0002). The HLA mutational analysis available for 10 sMN cases showed the presence of somatic class I/II loci variants in 4/10 of progressors, including pts with chr7 abnormalities in 3/4 of cases. Of note, all class I HLA mutations were found in locus C. By comparison, in non-progressing AA pts HLA class I/II variants were found in 13% of pts. Our results demonstrate that AA progression to MN has distinct molecular characteristics. The presence of HLA mutations suggests that immune escape or immune selection may play a role, while the presence of GL predisposition variants shows that they not only may facilitate AA but also clonal evolution as described from classic congenital BMF. Disclosures Patel: Alexion: Other: educational speaker. Voso:Bristol Myers Squibb: Honoraria, Membership on an entity's Board of Directors or advisory committees, Research Funding. Carraway:Takeda: Other: Independent Advisory Committe (IRC); ASTEX: Other: Independent Advisory Committe (IRC); Novartis: Consultancy, Speakers Bureau; Abbvie: Other: Independent Advisory Committe (IRC); BMS: Consultancy, Other: Research support, Speakers Bureau; Jazz: Consultancy, Speakers Bureau; Stemline: Consultancy, Speakers Bureau. Maciejewski:Alexion, BMS: Speakers Bureau; Novartis, Roche: Consultancy, Honoraria.

Type of Medium: Online Resource

ISSN: 0006-4971 , 1528-0020

URL: Article

DOI: 10.1182/blood-2020-140045

RVK:

XA 33000

RVK:

XA 10000

Language: English

Publisher: American Society of Hematology

Publication Date: 2020

detail.hit.zdb_id: 1468538-3

detail.hit.zdb_id: 80069-7

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Leukemia Relapse after Allogeneic Hematopoietic Stem Cell Transplantation: From Recapitulation/Acquisition of Leukemogenic Hits to Immune Escape Due to Somatic Class I/ II HLA Mutations

Pagliuca, Simona ; Gurnari, Carmelo ; Hong, Sanghee ; [et al.]

American Society of Hematology ; 2020

In: Blood Vol. 136, No. Supplement 1 ( 2020-11-5), p. 21-21

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In: Blood, American Society of Hematology, Vol. 136, No. Supplement 1 ( 2020-11-5), p. 21-21

Abstract: Curative potential of allogeneic hematopoietic cell transplantation (aHCT) in myeloid malignancies is principally related to the graft versus leukemia (GvL) effect exerted by donor-derived immune effectors on leukemic cells. However, different pathways may drive post-transplant relapse, including perturbation/attenuation of T cell-mediated GvL responses. For example, decreased expression of HLA alleles has been described in post-aHCT relapse.1 This could be due to down-regulation of HLA or 6p HLA locus deletion. However, the occurrence of chromosome 6p uniparental disomy (UPD) along with del6p (first described by our group in the context of aplastic anemia)2 suggests that HLA loss of heterozygosity (LOH) and inherent loss of one allele (presenting immunodominant peptides) may be a significant contributor to leukemic relapse either directly, causing decreased HLA expression or as additive effect to HLA down-regulation. In relapses after haploidentical or mismatched aHCT, LOH of mismatched allele has been described.3 Here, we hypothesize that not only copy neutral LOH or haploinsufficient HLA expression but also defective function due to HLA mutations may lead to immune escape from GvL. Such a mechanism would involve the loss of an allele responsible for the presentation of an immunodominant antigenic peptide. Moreover, unlike relapse due to the acquisition of additional myeloid mutations, HLA mutant relapse would also acquire resistance to donor lymphocyte infusion (DLI) therapy. In order to dissect the immunogenomic mechanisms leading to leukemic immune-evasion, we performed a comprehensive genetic analysis of specimens sequentially collected from a cohort of patients with acute myeloid leukemia (AML) and myelodysplastic syndromes (MDS) relapsed after aHCT. Specifically, we applied a deep-targeted NGS panel to study HLA region along with 173 genes known to have a role in leukemogenesis and cancer ontogeny. So far, 57 paired/serial biospecimens from 25 transplanted patients have been analyzed (25 samples at AML/MDS diagnosis, 25 at the moment of relapse after aHCT and 7 samples at relapse after chemotherapy) Overall, we found the acquisition of 8 disruptive HLA somatic mutations in 6 patients at post-transplant relapse (24%), 4 in class I and 4 in class II loci. None of those events were found in samples at diagnosis or at post-chemotherapy relapse, suggesting the possibility of an "immune-escape relapse". Those somatic hits accounted for 4 intronic indels, 1 frameshift insertion, one splicing site and 2 point mutations in 3′ and 5′ untranslated regions (UTRs). Median variant allele frequency (VAF) was 17% (range 2-58%). Of note is that all HLA mutant patients received a matched aHCT (4 from related and 2 from a 10/10 matched unrelated donors) suggesting that this mechanism is independent from the deletion and the loss of an immune privileged mismatched allele. Interestingly, median time to relapse was 514 (range 119-935) days for HLA-mutated patients vs 126 (62-543) for HLA wild type cases (p=.00042), consistent with the hypothesis that the establishment of immune-tolerance, and the presence of a GvL effect (less likely in early relapses) are required for the selection of those mutations. When somatic genotype of these patients prior and after transplant was studied, we found that post-aHCT relapses were associated in most cases with a new genomic configuration with either loss of previous events or acquisition of new subclonal mutations in myeloid or cancer related genes (in 17/25 cases). However no difference was seen in terms of number and patterns of new events among the HLA mutated and HLA wild type patients. Results shown here represent an important proof-of-concept for the role played by somatic mutations in HLA genes in the setting of post-aHCT AML/MDS relapses. These events, in analogy to the deletion or copy neutral LOH, may promote immune escape relapse resistant to immunologic manipulations and may coexist or be an alternative pathway to the progression/relapse characterized by acquisition of myeloid subclonal driver mutations. In that context, HLA mutations would be considered facilitator lesions. Disclosures Hsi: CytomX: Consultancy, Honoraria; Eli Lilly: Research Funding; Abbvie: Research Funding; Miltenyi: Consultancy, Honoraria; Seattle Genetics: Consultancy, Honoraria. Hamilton:Syndax Pharmaceuticals: Consultancy, Honoraria. Carraway:Abbvie: Other: Independent Advisory Committe (IRC); BMS: Consultancy, Other: Research support, Speakers Bureau; Novartis: Consultancy, Speakers Bureau; Jazz: Consultancy, Speakers Bureau; Stemline: Consultancy, Speakers Bureau; Takeda: Other: Independent Advisory Committe (IRC); ASTEX: Other: Independent Advisory Committe (IRC). Majhail:Incyte: Honoraria; Mallinckrodt: Honoraria; Nkarta Therapeutics: Honoraria; Anthem, Inc.: Consultancy. Maciejewski:Alexion, BMS: Speakers Bureau; Novartis, Roche: Consultancy, Honoraria.

Type of Medium: Online Resource

ISSN: 0006-4971 , 1528-0020

URL: Article

DOI: 10.1182/blood-2020-143242

RVK:

XA 33000

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XA 10000

Language: English

Publisher: American Society of Hematology

Publication Date: 2020

detail.hit.zdb_id: 1468538-3

detail.hit.zdb_id: 80069-7

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Large Granular Lymphocytic Leukemia: From Immunopathogenesis to Treatment of Refractory Disease

Zawit, Misam ; Bahaj, Waled ; Gurnari, Carmelo ; [et al.]

MDPI AG ; 2021

In: Cancers Vol. 13, No. 17 ( 2021-09-01), p. 4418-

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In: Cancers, MDPI AG, Vol. 13, No. 17 ( 2021-09-01), p. 4418-

Abstract: Large Granular Lymphocyte Leukemia (LGLL) is a rare, chronic lymphoproliferative disorder of effector cytotoxic T-cells, and less frequently, natural killer (NK) cells. The disease is characterized by an indolent and often asymptomatic course. However, in roughly 50% of cases, treatment is required due to severe transfusion-dependent anemia, severe neutropenia, or moderate neutropenia with associated recurrent infections. LGLL represents an interesting disease process at the intersection of a physiological immune response, autoimmune disorder, and malignant (clonal) proliferation, resulting from the aberrant activation of cellular pathways promoting survival, proliferation, and evasion of apoptotic signaling. LGLL treatment primarily consists of immunosuppressive agents (methotrexate, cyclosporine, and cyclophosphamide), with a cumulative response rate of about 60% based on longitudinal expertise and retrospective studies. However, refractory cases can result in clinical scenarios characterized by transfusion-dependent anemia and severe neutropenia, which warrant further exploration of other potential targeted treatment modalities. Here, we summarize the current understanding of the immune-genomic profiles of LGLL, its pathogenesis, and current treatment options, and discuss potential novel therapeutic agents, particularly for refractory disease.

Type of Medium: Online Resource

ISSN: 2072-6694

URL: Article

DOI: 10.3390/cancers13174418

Language: English

Publisher: MDPI AG

Publication Date: 2021

detail.hit.zdb_id: 2527080-1

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Acute Respiratory Failure Secondary to ACE Inhibitor–Induced Angioedema after Five Years of Lisinopril Therapy

Sharman, Tariq ; Song, Jeffrey ; Zawit, Misam ; [et al.]

Science and Education Publishing Co., Ltd. ; 2019

In: American Journal of Medical Case Reports Vol. 8, No. 1 ( 2019-11-13), p. 8-10

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In: American Journal of Medical Case Reports, Science and Education Publishing Co., Ltd., Vol. 8, No. 1 ( 2019-11-13), p. 8-10

Type of Medium: Online Resource

ISSN: 2374-2151

URL: Article

DOI: 10.12691/ajmcr-8-1-2

Language: Unknown

Publisher: Science and Education Publishing Co., Ltd.

Publication Date: 2019

detail.hit.zdb_id: 2818056-2

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Implication of PIGA genotype on erythrocytes phenotype in Paroxysmal Nocturnal Hemoglobinuria

Gurnari, Carmelo ; Pagliuca, Simona ; Patel, Bhumika J. ; [et al.]

Springer Science and Business Media LLC ; 2021

In: Leukemia Vol. 35, No. 8 ( 2021-08), p. 2431-2434

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In: Leukemia, Springer Science and Business Media LLC, Vol. 35, No. 8 ( 2021-08), p. 2431-2434

Type of Medium: Online Resource

ISSN: 0887-6924 , 1476-5551

URL: Article

DOI: 10.1038/s41375-020-01113-0

RVK:

WA 15000

Language: English

Publisher: Springer Science and Business Media LLC

Publication Date: 2021

detail.hit.zdb_id: 2008023-2

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