Myrna Medlej-Hashim

Familial autoinflammation with neutrophilic dermatosis reveals a regulatory mechanism of pyrin activation

A mutation in pyrin that disrupts regulation leads to autoinflammatory disease. Guarding inflammation The innate immune system is hard-wired to protect people from infection. However, mutations in these protective genes can lead to uncontrolled inflammation, resulting in autoinflammatory disease. Now, Masters et al. describe a family with an autoinflammatory disease caused by a previously unreported mutation in pyrin. This mutation disrupts pyrin regulation and mimics the effect of pathogen sensing by pyrin, leading to proinflammatory interleukin-1β (IL-1β) production. Indeed, targeting IL-1β resolved disease in one patient. These data suggest that pyrin is regulated through a guard-like mechanism, which guards against autoinflammation in humans. Pyrin responds to pathogen signals and loss of cellular homeostasis by forming an inflammasome complex that drives the cleavage and secretion of interleukin-1β (IL-1β). Mutations in the B30.2/SPRY domain cause pathogen-independent activation of pyrin and are responsible for the autoinflammatory disease familial Mediterranean fever (FMF). We studied a family with a dominantly inherited autoinflammatory disease, distinct from FMF, characterized by childhood-onset recurrent episodes of neutrophilic dermatosis, fever, elevated acute-phase reactants, arthralgia, and myalgia/myositis. The disease was caused by a mutation in MEFV, the gene encoding pyrin (S242R). The mutation results in the loss of a 14-3-3 binding motif at phosphorylated S242, which was not perturbed by FMF mutations in the B30.2/SPRY domain. However, loss of both S242 phosphorylation and 14-3-3 binding was observed for bacterial effectors that activate the pyrin inflammasome, such as Clostridium difficile toxin B (TcdB). The S242R mutation thus recapitulated the effect of pathogen sensing, triggering inflammasome activation and IL-1β production. Successful therapy targeting IL-1β has been initiated in one patient, resolving pyrin-associated autoinflammation with neutrophilic dermatosis. This disease provides evidence that a guard-like mechanism of pyrin regulation, originally identified for Nod-like receptors in plant innate immunity, also exists in humans.

Genetic screening of fourteen mutations in Jordanian familial Mediterranean fever patients.

Familial Mediterranean fever is an autosomal recessive disorder characterised by episodic fever, abdominal and pleuritic pain, serositis and arthritis. The FMF gene (MEFV) has been mapped to chromosome 16p13.3 and generates a protein found exclusively in granulocytes. Seventeen mutations have been reported up to the present in FMF patients. This study involves the screening of 14 mutations in 42 Jordanian patients by two methods: RFLP and ARMS. The most frequent mutations were M694V and V726A (20% and 14% of the alleles respectively), followed by M680I and E148Q (9.5% and 7% of the alleles respectively). The A744S mutation accounts for 2.5% and the M694I, T267I and F479L mutations account each for 1% of the alleles. E167D, R761H, P369S, I692del and M694del mutations were not found in this population. Forty‐four percent of the alleles did not have any of the 14 mutations. The results show the diversity and the frequency of the mutations in the Jordanian patients, and open the way for further investigations on patients diagnosed to have FMF and in whom no mutations were found. Hum Mutat 15:384, 2000.

Vibratory Urticaria Associated with a Missense Variant in ADGRE2.

Patients with autosomal dominant vibratory urticaria have localized hives and systemic manifestations in response to dermal vibration, with coincident degranulation of mast cells and increased histamine levels in serum. We identified a previously unknown missense substitution in ADGRE2 (also known as EMR2), which was predicted to result in the replacement of cysteine with tyrosine at amino acid position 492 (p.C492Y), as the only nonsynonymous variant cosegregating with vibratory urticaria in two large kindreds. The ADGRE2 receptor undergoes autocatalytic cleavage, producing an extracellular subunit that noncovalently binds a transmembrane subunit. We showed that the variant probably destabilizes an autoinhibitory subunit interaction, sensitizing mast cells to IgE-independent vibration-induced degranulation. (Funded by the National Institutes of Health.).

Familial Mediterranean Fever: association of elevated IgD plasma levels with specific MEFV mutations

Familial Mediterranean Fever (FMF) is a recessively inherited disorder, characterized by episodic fever, abdominal and arthritic pain, as well as other forms of inflammation. Some FMF patients present higher IgD serum levels, and it is not yet known whether such an elevation is related to specific genotypes or correlated with a specific phenotype. In order to evaluate the association between known FMF-related mutations and IgD levels in confirmed patients, as well as the correlation between those levels and the presence of specific clinical signs, genotypic analysis and IgD plasma measurements were performed for 148 Lebanese and Jordanian FMF patients. Most common mutational patterns were M694V heterozygotes (19%) and homozygotes (17%), and V726A heterozygotes (18%) and homozygotes (5%), with an additional 11% combining both mutations. Twenty-one patients had higher IgD levels (superior to 100 μg/ml). The risk for higher IgD levels was significantly associated with M694V homozygote status (OR = 6.25) but not with heterozygotic one (OR = 1). Similarly, the risk for higher IgD was also found with V726A homozygotes (OR = 2.2) but not with heterozygotes (OR = 1.05). The use of colchicine was not statistically associated with IgD levels. Clinically, hyper IgD was also found significantly associated with arthritis (OR = 18). Thus, homozygotic status for M694V, and to a lesser extent V726A, is associated with increased risk for higher IgD plasma levels, regardless of colchicine use. Elevated IgD plasma levels are also correlated with the severity of FMF manifestations, and especially with arthritis.

Non-syndromic recessive deafness in Jordan: mapping of a new locus to chromosome 9q34.3 and prevalence of DFNB1 mutations.

Non-syndromic recessive deafness (NSRD) is the most commonly encountered form of hereditary hearing loss. The majority of NSRD cases in the Mediterranean area are linked to the DFNB1 locus (the connexin 26 GJB2 gene). Unrelated NSRD patients issued from 68 Jordanian families, were tested for mutations of the GJB2 gene by sequencing. Sixteen per cent of the families tested were linked to the DFNB1 locus. The 35delG was the only GJB2 mutation detected in these families. One of these families, presenting with four affected members and not linked to the gene, was subjected to a genome-wide search and was found to be mapped to 9q34.3 with a multipoint lodscore of 3.9. One candidate gene in the interval, coding for the chloride intracellular channel 3, CLIC3, was tested and excluded. The identification of a new NSRD locus, DFNB33, in one Jordanian family, shows the wide genetic heterogeneity that characterizes hearing impairment and the genetic diversity in Middle-Eastern populations.

1Novel MEFV transcripts in Familial Mediterranean fever patients and controls

BackgroundFamilial Mediterranean fever is a recessive autoinflammatory disease frequently encountered in Armenians, Jews, Arabs and Turks. The MEFV gene is responsible for the disease. It encodes a protein called pyrin/marenostrin involved in the innate immune system. A large number of clinically diagnosed FMF patients carry only one MEFV mutation. This study aims at studying the MEFV gene splicing pattern in heterozygous FMF patients and healthy individuals, in an attempt to understand the mechanism underlying the disease in these patients.MethodsRNA was extracted from peripheral blood leucocytes of 41 FMF patients and 34 healthy individuals. RT-PCR was then performed, and the amplified products were migrated on a polyacrylamide electrophoresis gel, characterized by gel extraction of the corresponding bands followed by sequencing.ResultsFive novel splicing events were observed in both patients and controls deleting either exons 3, 4 (del34), or exons 2, 3, 4 (del234), or exons 2, 3, 4, 5 (del2345) or exon7 (del7) or exons 7 and 8 (del78).ConclusionsThe observation of such qualitative variability in the expression of the MEFV gene suggests a complex transcriptional regulation. However, the expression of these novel transcripts in both patients and controls is not in favour of a severe pathogenic effect.

Estimating the Allele Frequency of Autosomal Recessive Disorders through Mutational Records and Consanguinity: The Homozygosity Index (HI)

In principle mutational records make it possible to estimate frequencies of disease alleles (q) for autosomal recessive disorders using a novel approach based on the calculation of the Homozygosity Index (HI), i.e., the proportion of homozygous patients, which is complementary to the proportion of compound heterozygous patients P(CH). In other words, the rarer the disorder, the higher will be the HI and the lower will be the P(CH). To test this hypothesis we used mutational records of individuals affected with Familial Mediterranean Fever (FMF) and Phenylketonuria (PKU), born to either consanguineous or apparently unrelated parents from six population samples of the Mediterranean region. Despite the unavailability of precise values of the inbreeding coefficient for the general population, which are needed in the case of apparently unrelated parents, our estimates of q are very similar to those of previous descriptive epidemiological studies. Finally, we inferred from simulation studies that the minimum sample size needed to use this approach is 25 patients either with unrelated or first cousin parents. These results show that the HI can be used to produce a ranking order of allele frequencies of autosomal recessive disorders, especially in populations with high rates of consanguineous marriages.

Familial Mediterranean fever: the potential for misdiagnosis of E148V using the E148Q usual RFLP detection method

To the Editor: Familial Mediterranean fever (FMF) is a recessively inherited disease affecting mostly Mediterranean populations (1). Presently, 21 mutations (2–12) have been reported in the gene responsible for the disease, MEFV, mostly in exons 2 and 10. Previous studies on Lebanese and Jordanian FMF patients showed that these populations are genetically highly heterogeneous (13,14). In the present study, 342 Lebanese and Jordanian FMF patients were diagnosed according to Heller’s criteria (15). They willingly filled in an information form and donated blood. DNA was extracted from leucocytes by standard techniques (16). Sequencing of exons 2 (primers E2A: 5ƒAACTTTAATATCCAAGGGGATTC-3ƒ and E2B: 5ƒ-TTCTCTGCAGCCGATATAAAGTA3ƒ) and 10 (primers E10-1F: 5ƒ-AGAAGAACTACCCTGTCCCTG-3ƒ and E10-3R: 5ƒTAGTCACGGAATGCCGACTAG-3ƒ) using the ABI 310 genetic analyzer led to the identification of rare and novel mutations. Allelic frequencies of mutations M694V, V726A, M694I, M680I and E148Q were similar to those previously reported (13,14), whereas rare mutations, such as A744S (1 patient), R653H (2 patients), R761H (8 patients), M694del (1 patient) and E148V (1 patient), were encountered in the Lebanese series. New single nucleotide polymorphisms (SNP) corresponding to silent substitutions, such as G764 GGG/GGT in exon 10 and L142 CTG/CTT in exon 2, were

Familial Mediterranean Fever In Lebanon: Founder Effects For Different MEFV Mutations

Haplotype analysis of 376 Familial Mediterranean Fever (FMF) patients and 100 controls from Lebanon was performed using 4 microsatellite loci to study founder effects for the five most frequent mutations within the MEFV gene (M694V, M694I, V726A, M680I and E148Q).

Population genetic data for 17 STR markers from Lebanon

Seventeen autosomal STRs were analyzed (D2S1338, D3S1358, D5S818, D7S820, D8S1179, D13S317, D16S539, D18S51, D19S433, D21S11, CSF1PO, FGA, TH01, TPOX, vWA, Penta D, and Penta E) in the Lebanese population. A total of 192 unrelated individuals were genotyped for the 15 autosomal STRs in the Promega PowerPlex 16 STR kit. An additional 275 unrelated individuals were genotyped for the Applied Biosystems AmpFlSTR Identifiler and SGM+STR kits. Allele frequencies for the shared CODIS 13 loci among the three STR kits tested were not significantly different among individuals within the Lebanese population. Forensic and population genetic parameters for the 17 loci were calculated. We also compared the allele frequencies from this population with other populations in the same geographic vicinity.