SF3B1
is a highly mutated gene in myelodysplastic syndrome (MDS) patients, related to a specific subtype and parameters of good prognosis in MDS without excess blasts. More than 40% of MDS patients ...carry at least two myeloid-related gene mutations but little is known about the impact of concurrent mutations on the outcome of MDS patients. In applying next-generation sequencing (NGS) with a 117 myeloid gene custom panel, we analyzed the co-occurrence of
SF3B1
with other mutations to reveal their clinical, biological, and prognostic implications in very low/low- and intermediate-risk MDS patients. Mutations in addition to those of
SF3B1
were present in 80.4% of patients (median of 2 additional mutations/patient, range 0–5). The most frequently mutated genes were as follows:
TET2
(39.2%),
DNMT3A
(25.5%),
SRSF2
(10.8%),
CDH23
(5.9%), and
ASXL1
,
CUX1
, and
KMT2D
(4.9% each). The presence of at least two mutations concomitant with that of
SF3B1
had an adverse impact on survival compared with those with the
SF3B1
mutation and fewer than two additional mutations (median of 54 vs. 87 months, respectively:
p
= 0.007). The co-occurrence of
SF3B1
mutations with specific genes is also linked to a dismal prognosis:
SRSF2
mutations were associated with shorter overall survival (OS) than
SRSF2
wt (median, 27 vs. 75 months, respectively;
p
= 0.001), concomitant
IDH2
mutations (median OS, 11 mut vs. 75 wt months;
p
= 0.001),
BCOR
mutations (median OS, 11 mut vs. 71 wt months;
p
= 0.036), and
NUP98
and
STAG2
mutations (median OS, 27 and 11 vs. 71 months, respectively;
p
= 0.008 and
p
= 0.002). Mutations in CHIP genes (
TET2
,
DNMT3A
) did not significantly affect the clinical features or outcome. Our results suggest that a more comprehensive NGS study in low-risk MDS
SF3B1
mut
patients is essential for a better prognostic evaluation.
Myelodysplastic syndromes (MDS) are hematological disorders at high risk of progression to secondary acute myeloid leukemia (sAML). However, the mutational dynamics and clonal evolution underlying ...disease progression are poorly understood at present. To elucidate the mutational dynamics of pathways and genes occurring during the evolution to sAML, next generation sequencing was performed on 84 serially paired samples of MDS patients who developed sAML (discovery cohort) and 14 paired samples from MDS patients who did not progress to sAML during follow-up (control cohort). Results were validated in an independent series of 388 MDS patients (validation cohort). We used an integrative analysis to identify how mutations, alone or in combination, contribute to leukemic transformation. The study showed that MDS progression to sAML is characterized by greater genomic instability and the presence of several types of mutational dynamics, highlighting increasing (STAG2) and newly-acquired (NRAS and FLT3) mutations. Moreover, we observed cooperation between genes involved in the cohesin and Ras pathways in 15-20% of MDS patients who evolved to sAML, as well as a high proportion of newly acquired or increasing mutations in the chromatin-modifier genes in MDS patients receiving a disease-modifying therapy before their progression to sAML.
•GALE is expressed during late-stage megakaryopoiesis, regulating the glycosylation and surface exposure of GPIbα and β1 integrin.•Novel GALE variants cause syndromic macrothrombocytopenia associated ...with impaired platelet formation and function.
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Glycosylation is recognized as a key process for proper megakaryopoiesis and platelet formation. The enzyme uridine diphosphate (UDP)-galactose-4-epimerase, encoded by GALE, is involved in galactose metabolism and protein glycosylation. Here, we studied 3 patients from 2 unrelated families who showed lifelong severe thrombocytopenia, bleeding diathesis, mental retardation, mitral valve prolapse, and jaundice. Whole-exome sequencing revealed 4 variants that affect GALE, 3 of those previously unreported (Pedigree A, p.Lys78ValfsX32 and p.Thr150Met; Pedigree B, p.Val128Met; and p.Leu223Pro). Platelet phenotype analysis showed giant and/or grey platelets, impaired platelet aggregation, and severely reduced alpha and dense granule secretion. Enzymatic activity of the UDP-galactose-4-epimerase enzyme was severely decreased in all patients. Immunoblotting of platelet lysates revealed reduced GALE protein levels, a significant decrease in N-acetyl-lactosamine (LacNAc), showing a hypoglycosylation pattern, reduced surface expression of gylcoprotein Ibα-IX-V (GPIbα-IX-V) complex and mature β1 integrin, and increased apoptosis. In vitro studies performed with patients-derived megakaryocytes showed normal ploidy and maturation but decreased proplatelet formation because of the impaired glycosylation of the GPIbα and β1 integrin, and reduced externalization to megakaryocyte and platelet membranes. Altered distribution of filamin A and actin and delocalization of the von Willebrand factor were also shown. Overall, this study expands our knowledge of GALE-related thrombocytopenia and emphasizes the critical role of GALE in the physiological glycosylation of key proteins involved in platelet production and function.
Genetic mutations affecting glycosylation can contribute to abnormal platelet production and function. In this context, Marín-Quílez and colleagues characterize the functions of UDP-galactose-4-epimerase (GALE), identifying 3 new GALE mutations in patients with macrothrombocytopenia, and moderate-to-severe bleeding tendencies. The authors explain their phenotypic effects on platelet production, structure, and function through elegant mechanistic studies.
Interstitial 14q32 deletions involving IGH gene are infrequent events in chronic lymphocytic leukemia (CLL), affecting less than 5% of patients. To date, little is known about their clinical impact ...and molecular underpinnings, and its mutational landscape is currently unknown. In this work, a total of 871 CLLs were tested for the IGH break‐apart probe, and 54 (6.2%) had a 300 kb deletion of 3′IGH (del‐3′IGH CLLs), which contributed to a shorter time to first treatment (TFT). The mutational analysis by next‐generation sequencing of 317 untreated CLLs (54 del‐3′IGH and 263 as the control group) showed high mutational frequencies of NOTCH1 (30%), ATM (20%), genes involved in the RAS signaling pathway (BRAF, KRAS, NRAS, and MAP2K1) (15%), and TRAF3 (13%) within del‐3′IGH CLLs. Notably, the incidence of TRAF3 mutations was significantly higher in del‐3′IGH CLLs than in the control group (p < .001). Copy number analysis also revealed that TRAF3 loss was highly enriched in CLLs with 14q deletion (p < .001), indicating a complete biallelic inactivation of this gene through deletion and mutation. Interestingly, the presence of mutations in the aforementioned genes negatively refined the prognosis of del‐3′IGH CLLs in terms of overall survival (NOTCH1, ATM, and RAS signaling pathway genes) and TFT (TRAF3). Furthermore, TRAF3 biallelic inactivation constituted an independent risk factor for TFT in the entire CLL cohort. Altogether, our work demonstrates the distinct genetic landscape of del‐3′IGH CLL with multiple molecular pathways affected, characterized by a TRAF3 biallelic inactivation that contributes to a marked poor outcome in this subgroup of patients.
The microbiota is increasingly recognized as a significant factor in the pathophysiology of many diseases, including cardiometabolic diseases, with lifestyles probably exerting the greatest influence ...on the composition of the human microbiome. The main objectives of the study are to analyze the association of lifestyles (diet, physical activity, tobacco, and alcohol) with the gut and oral microbiota, arterial aging, and cognitive function in subjects without cardiovascular disease in the Iberian Peninsula. In addition, the study will examine the mediating role of the microbiome in mediating the association between lifestyles and arterial aging as well as cognitive function.
MIVAS III is a multicenter cross-sectional study that will take place in the Iberian Peninsula. One thousand subjects aged between 45 and 74 years without cardiovascular disease will be selected. The main variables are demographic information, anthropometric measurements, and habits (tobacco and alcohol). Dietary patterns will be assessed using a frequency consumption questionnaire (FFQ) and the Mediterranean diet adherence questionnaire. Physical activity levels will be evaluated using the International Physical Activity Questionnaire (IPAQ), Marshall Questionnaire, and an Accelerometer (Actigraph). Body composition will be measured using the Inbody 230 impedance meter. Arterial aging will be assessed through various means, including measuring medium intimate carotid thickness using the Sonosite Micromax, conducting analysis with pulse wave velocity (PWA), and measuring pulse wave velocity (cf-PWV) using the Sphygmocor System. Additional cardiovascular indicators such as Cardio Ankle Vascular Index (CAVI), ba-PWV, and ankle-brachial index (Vasera VS-2000
) will also be examined. The study will analyze the intestinal microbiota using the OMNIgene GUT kit (OMR-200) and profile the microbiome through massive sequencing of the 16S rRNA gene. Linear discriminant analysis (LDA), effect size (LEfSe), and compositional analysis, such as ANCOM-BC, will be used to identify differentially abundant taxa between groups. After rarefying the samples, further analyses will be conducted using MicrobiomeAnalyst and R v.4.2.1 software. These analyses will include various aspects, such as assessing α and β diversity, conducting abundance profiling, and performing clustering analysis.
Lifestyle acts as a modifier of microbiota composition. However, there are no conclusive results demonstrating the mediating effect of the microbiota in the relationship between lifestyles and cardiovascular diseases. Understanding this relationship may facilitate the implementation of strategies for improving population health by modifying the gut and oral microbiota.
clinicaltrials.gov/ct2/show/NCT04924907, ClinicalTrials.gov, identifier: NCT04924907. Registered on 21 April 2021.
Gut microbiota and its by-products are increasingly recognized as having a decisive role in cardiovascular diseases. The aim is to study the relationship between gut microbiota and early vascular ...ageing (EVA).
A cross-sectional study was developed in Salamanca (Spain) in which 180 subjects aged 45-74 years were recruited. EVA was defined by the presence of at least one of the following: carotid-femoral pulse wave velocity (cf-PWV), cardio-ankle vascular index (CAVI) or brachial-ankle pulse wave velocity (ba-PWV) above the 90th percentile of the reference population. All other cases were considered normal vascular ageing (NVA).
cf-PWV was measured by SphygmoCor® System; CAVI and ba-PWV were determined by Vasera 2000® device. Gut microbiome composition in faecal samples was determined by 16S rRNA Illumina sequencing.
Mean age was 64.4 ± 6.9 in EVA group and 60.4 ± 7.6 years in NVA (p < .01). Women in EVA group were 41% and 53% in NVA. There were no differences in the overall composition of gut microbiota between the two groups when evaluating Firmicutes/Bacteriodetes ratio, alfa diversity (Shannon Index) and beta diversity (Bray-Curtis). Bilophila, Faecalibacterium sp.UBA1819 and Phocea, are increased in EVA group. While Cedecea, Lactococcus, Pseudomonas, Succiniclasticum and Dielma exist in lower abundance. In logistic regression analysis, Bilophila (OR: 1.71, 95% CI: 1.12-2.6, p = .013) remained significant.
In the studied Spanish population, early vascular ageing is positively associated with gut microbiota abundance of the genus Bilophila. No relationship was found between phyla abundance and measures of diversity.
IntroductionIntestinal microbiota is arising as a new element in the physiopathology of cardiovascular diseases. A healthy microbiota includes a balanced representation of bacteria with health ...promotion functions (symbiotes). The aim of this study is to analyse the relationship between intestinal microbiota composition and arterial stiffness.Methods and analysisAn observational case—control study will be developed. Cases will be defined by the presence of at least one of the following: carotid-femoral pulse wave velocity (cf-PWV), Cardio-Ankle Vascular Index (CAVI), brachial ankle pulse wave velocity (ba or ba-PWV) above the 90th percentile, for age and sex, of the reference population. Controls will be selected from the same population as cases. The study will be developed in Primary Healthcare Centres. We will select 500 subjects (250 cases and 250 controls), between 45 and 74 years of age. Cases will be selected from a database that combines data from EVA study (Spain) and Guimarães/Vizela study (Portugal). Measurements: cf-PWV will be measured using the SphygmoCor system, CAVI, ba-PWV and Ankle-Brachial Index will be determined using VaSera device. Gut microbiome composition in faecal samples will be determined by 16S ribosomal RNA sequencing. Lifestyle will be assessed by food frequency questionnaire, adherence to the Mediterranean diet and IPAQ (International Physical Activity Questionnaire). Body composition will be evaluated by bioimpedance.Ethics and disseminationThe study has been approved by ‘Committee of ethics of research with medicines of the health area of Salamanca’ on 14 December 2018 (cod. 2018-11-136) and the ’Ethics committee for health of Guimaraes’ (Portugal) on 15 October 2019 (ref: 67/2019). All study participants will sign an informed consent form agreeing to participate in the study, in compliance with the Declaration of Helsinki and the WHO standards for observational studies. The results of this study will allow a better description of gut microbiota in patients with arterial stiffness.Trial registration detailsClinicalTrials.gov, identifier NCT03900338
The clinical presentations of COVID-19 may range from an asymptomatic or mild infection to a critical or fatal disease. Several host factors such as elderly age, male gender, and previous ...comorbidities seem to be involved in the most severe outcomes, but also an impaired immune response that causes a hyperinflammatory state but is unable to clear the infection. In order to get further understanding about this impaired immune response, we aimed to determine the association of specific HLA alleles with different clinical presentations of COVID-19. Therefore, we analyzed HLA Class I and II, as well as KIR gene sequences, in 72 individuals with Spanish Mediterranean Caucasian ethnicity who presented mild, severe, or critical COVID-19, according to their clinical characteristics and management. This cohort was recruited in Madrid (Spain) during the first and second pandemic waves between April and October 2020. There were no significant differences in HLA-A or HLA-B alleles among groups. However, despite the small sample size, we found that HLA-C alleles from group C1 HLA-C*08:02, -C*12:03, or -C*16:01 were more frequently associated in individuals with mild COVID-19 (43.8%) than in individuals with severe (8.3%; p = 0.0030; pc = 0.033) and critical (16.1%; p = 0.0014; pc = 0.0154) disease. C1 alleles are supposed to be highly efficient to present peptides to T cells, and HLA-C*12:03 may present a high number of verified epitopes from abundant SARS-CoV-2 proteins M, N, and S, thereby being allegedly able to trigger an efficient antiviral response. On the contrary, C2 alleles are usually poorly expressed on the cell surface due to low association with β2-microglobulin (β2M) and peptides, which may impede the adequate formation of stable HLA-C/β2M/peptide heterotrimers. Consequently, this pilot study described significant differences in the presence of specific HLA-C1 alleles in individuals with different clinical presentations of COVID-19, thereby suggesting that HLA haplotyping could be valuable to get further understanding in the underlying mechanisms of the impaired immune response during critical COVID-19.
Celotno besedilo
Dostopno za:
DOBA, IZUM, KILJ, NUK, PILJ, PNG, SAZU, SIK, UILJ, UKNU, UL, UM, UPUK
Introduction: Adult B-cell precursor acute lymphoblastic leukemia (BCP-ALL) is a hematologic malignancy characterized by a high genetic heterogeneity and high relapse rate. Despite treatment advances ...have led to high cure rates in pediatric BCP-ALL (90%), improving survival in adults remains a challenge. Identification of genetic alterations driving relapse and both new prognostic and therapeutic biomarkers are important to improve survival in adults with BCP-ALL. Aim: To identify genetic alterations that lead to relapse in adult BCP-ALL patients (18-72 years) based on the tumor genetic landscape. Methods: Forty-five adult BCP-ALL patients (median age: 43 years; range 18-72 years) were studied at diagnosis and relapse by massive sequencing using a custom panel that allows detection of single nucleotide variants (SNVs) and insertions/deletions (INDELs) in 150 genes involved in BCP-ALL, in addition to copy number variations (CNVs), gene fusions and aneuploidy. Thirty-eight percent of patients belonged to the BCP-other ALL group, 16% were Philadelphia-positive (Ph+), 16% were classified as Philadelphia-like (Ph-like), 11% belonged to the high hyperdiploidy group, 8% had KMT2A rearrangements ( KMT2Ar), 4% TCF3::PBX1 fusion, 3% showed hypodiploidy, 2% low hyperdiploidy and 2% de novo MYC and BCL2 double-hit. Patients were treated according to the Spanish Adult-PETHEMA high-risk ALL protocols. Results: The most frequently deleted gene at diagnosis was IKZF1 (25/45, 56%). Among these cases, 72% (20/25) had IKZF1plus genetic profile, characterized by co-occurrence of IKZF1 deletions with at least one deletion in CDKN2A/B, PAX5 or PAR1, without ERG deletion. The IKZF1plus genetic profile was associated with specific genetic subgroups: Ph+ (5/7, 71%), Ph-like (5/7, 71%) and B-other (10/17, 59%). Moreover, it was significantly related with the presence of minimal/measurable residual disease (MRD) after induction (16/18, 89%) p < 0.001 and persistence at relapse in most patients (18/20, 90%; p < 0.001). Interestingly, among those 5 patients initially diagnosed with IKZF1 deletion but who did not meet the criteria for the IKZF1plus profile, 2 of them acquired the IKZF1plus profile at relapse. This suggests a possible cooperation of these genetic deletions contributing to therapy resistance and disease progression in these genetic subgroups. Eighty-six percent (6/7) of Ph+ patients who received imatinib treatment presented ABL1 mutations that were detected exclusively at relapse. Of these cases, 67% (4/6) were also associated with IKZF1plus at relapse (Figure 1A). Two mutually exclusive genetic patterns were identified at relapse in adult B-other and Ph-like patients. Thus, patients with IKZF1plus profile did not show RAS pathway mutations (59% and 57%, respectively), while patients with RAS pathway mutations lack in IKZF1plus profile (18% and 29%, respectively) (Figure 1B). Moreover age-related differences in the adult B-other ALL patient group were observed. The presence of mutations in RAS pathway was associated with younger age (<40 years) (3/10, 30% vs. 0/7, 0%), whereas older patients (≥40 years) predominated in the IKZF1plus profile (6/7, 86% vs. 3/10, 30%). TP53 alterations were detected at diagnosis and/or relapse in 11 patients (24%), most of which (9/11, 82%) had a heterozygous mutation plus a deletion or a homozygous mutation (double-hit). The high hyperdiploidy subgroup was enriched in TP53 mutations (4/5, 80%), most of which were already present at diagnosis (3/4, 75%). These findings indicate that genetic biomarkers usually linked to a favorable prognosis, such as high hyperdiploidy, can be associated with unfavorable genetic markers, leading to poorer outcomes in this group of patients (Figure 1C). Both the IKZF1plus profile and TP53 alterations were associated with poorer overall survival (OS) rates (P=0.034 and P=0.040, respectively) in adult BCP-ALL (Figure 2). Conclusion: Our results highlight the clinical importance of the TP53 alterations and the IKZF1plus profile as prognostic factors in adult BCP-ALL, suggesting they might help guiding more personalized therapeutic strategies to improve outcomes in this group of BCP-ALL patients. Grants: SACYL(GRS2386/A/21,GRS2385/A/21,GRS2527/A/22,GRS2506/A/22), JCyL SA118P20, FMM21/002 AP176752021, Pfizer 69383919.
Introduction: Recent next-generation sequencing (NGS) studies have identified up to 200 recurrently mutated genes in chronic lymphocytic leukemia (CLL), the vast majority of which appear mutated in ...<5% of CLL cases. Among the long list of CLL candidate driver genes is ZMYM3, a gene mutated in 2-4% of CLL patients. Since the impact of ZMYM3 mutations is unknown, we aimed to identify their clinical and biological consequences in CLL. Methods: 487 CLL patients were analyzed by targeted NGS using a customized panel of 54 CLL-related genes to characterize the mutational profile of ZMYM3 mutated patients ( ZMYM3MUT) and the clinical impact of these variants. In addition, we introduced ZMYM3 truncating mutations into the CLL-derived HG3 cell line with two genetic backgrounds: wild-type (WT), and NOTCH1 mutated cells ( NOTCH1MUT), to generate cells with either single ZMYM3MUT, NOTCH1MUT or combined ZMYM3MUTNOTCH1MUT. In these CLL models, we evaluated the impact of these alterations in gene expression, apoptosis, growth and DNA damage response (DDR). Results: A total of 32 ZMYM3 variants were identified in 30 CLL patients, most of which were loss-of-function mutations (24/32; 75%). These variants were distributed throughout the protein sequence, with a particular recurrent frameshift mutation occurring in 6 patients (p.P48fs) that was subsequently reproduced in our CLL model. Attending to their mutational profile, we identified that 70% (21/30) of ZMYM3MUT patients harbored mutations in the NOTCH pathway, either in NOTCH1 (60%) or in negative regulators such as MED12, FBXW7 and SPEN, suggesting a cooperation between ZMYM3 dysfunction and NOTCH1 signaling mutations in CLL evolution. Interestingly, ZMYM3MUT patients exhibited significantly shorter time to first treatment (TFT) than ZMYM3WT cases (median: 35 vs 52 months; p=0.010). Furthermore, ZMYM3 mutations shortened TFT of early stage CLL patients, including Binet A (48 vs 108 months, p=0.002) or Rai 0/1 (48 vs 91 months, p=0.016), as well as in low-risk cytogenetics del(13q) patients (median: 45 vs 93 months; p=0.033). We next addressed the biological implications of ZMYM3 mutations and their co-occurrence with NOTCH1 mutations in HG3 cells. First, we performed RNA-sequencing and analyzed the number of differentially expressed genes (DEGs) (|fold change|>2, adjusted p-value<0.05). Comparing with WT cells, we detected 155 DEGs in ZMYM3MUT and 83 DEGs in NOTCH1MUT, whereas ZMYM3MUTNOTCH1MUT cells showed 690 DEGs,indicating that the combination of both mutations profoundly dysregulate gene expression. Immune regulation, apoptosis and DNA damage response were some of the biological processes dysregulated by ZMYM3 mutations (p<0.05). Furthermore, considering the suggested role of ZMYM3 in chromatin remodeling (Puente et al, Nature. 2015) and that ZMYM3MUT cells showed altered expression of histone acetylation related genes (p<0.05), we identified that ZMYM3 mutations reduced global acetylation levels of histone H4 (p<0.05), which may underlie the ZMYM3-related changes in gene expression. To further define the functional effects of ZMYM3 mutations, we assessed in vitro their impact in the main dysregulated pathways identified by RNA-seq. First, we identified that ZMYM3 mutations impair DNA damage response, as reflected by the difficulties to arrest cell cycle in G2/M phase after irradiation. Moreover, we detected more γH2AX foci (p<0.05) in ZMYM3MUTcells, indicating persistent DNA damage; and fewer RAD51 and BRCA1 foci than WT cells (p<0.001) after irradiation, suggesting defective DNA damage response. In parallel, we identified that ZMYM3 mutations promote apoptosis evasion, especially in the context of NOTCH1 mutations (p<0.001), which led to enhanced growth of ZMYM3MUTNOTCH1MUT cells (p<0.05). Of note, ZMYM3MUT cells showed down-expression of caspases (-8, -7 and -3) and slightly higher levels of anti-apoptotic proteins (BCL2, MCL1 and BCL-XL), which may explain this apoptosis resistance. Conclusions: Mutations in ZMYM3 are mainly loss-of-function, associate with NOTCH1 signaling mutations and shorten TFT in CLL patients, suggesting that ZMYM3 mutational status may be a useful marker in the management of early stage CLL patients. Moreover, ZMYM3 mutations reduce histone H4 acetylation and cooperate with NOTCH1 mutations to dysregulate gene-expression, leading to impair DNA damage response and apoptosis evasion.
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