Molecular and antigenic evolution and geographical spread of H5N1 highly pathogenic avian influenza viruses in western Africa.

In Africa, highly pathogenic avian influenza H5N1 virus was first detected in northern Nigeria and later also in other regions of the country. Since then, seven other African countries have reported H5N1 infections. This study reports a comparison of full-length genomic sequences of H5N1 isolates from seven chicken farms in Nigeria and chicken and hooded vultures in Burkina Faso with earlier H5N1 outbreaks worldwide. In addition, the antigenicity of Nigerian H5N1 isolates was compared with earlier strains. All African strains clustered within three sublineages denominated A (south-west Nigeria, Niger), B (south-west Nigeria, Egypt, Djibouti) and C (northern Nigeria, Burkina Faso, Sudan, Côte d'Ivoire), with distinct nucleotide and amino acid signatures and distinct geographical distributions within Africa. Probable non-African ancestors within the west Asian/Russian/European lineage distinct from the south-east Asian lineages were identified for each sublineage. All reported human cases in Africa were caused by sublineage B. Substitution rates were calculated on the basis of sequences from 11 strains from a single farm in south-west Nigeria. As H5N1 emerged essentially at the same time in the north and south-west of Nigeria, the substitution rates confirmed that the virus probably did not spread from the north to the south, given the observed sequence diversity, but that it entered the country via three independent introductions. The strains from Burkina Faso seemed to originate from northern Nigeria. At least two of the sublineages also circulated in Europe in 2006 as seen in Germany, further suggesting that the sublineages had already emerged outside of Africa and seemed to have followed the east African/west Asian and Black Sea/Mediterranean flyways of migratory birds.

Avian flu: multiple introductions of H5N1 in Nigeria.

As the avian influenza virus H5N1 swept from Asia across Russia to Europe, Nigeria was the first country in Africa to report the emergence of this highly pathogenic virus. Here we analyse H5N1 sequences in poultry from two different farms in Lagos state and find that three H5N1 lineages were independently introduced through routes that coincide with the flight paths of migratory birds, although independent trade imports cannot be excluded.

Passive immunity to measles in the breastmilk and cord blood of some nigerian subjects.

Maternal and cord blood collected from 33 Nigerian mother-child pairs were tested for measles-sepcific IgG. All 33 had protective measles antibodies at the time of delivery with a positive correlation of r = 0.87. Determination of the rate of waning of these antibodies revealed that 58 per cent of these children had lost the protective maternal antibody by the age of 4 months and only 3 per cent of the children had enough antibody to protect them between the ages of 6-9 months. Fifty-five colostrum samples from the same mothers and 347 breastmilk samples collected at various periods of breastfeeding also showed that anti-measles IgA had dropped below the protective cut-off within the first 2 weeks of birth. It is evident that the Nigerian child is born with solid anti-measles antibody but the rate of waning has left a large number unprotected before the first dose of the vaccine. There is an urgent need to review the measles vaccination programme in Nigeria to protect these susceptible infants.

Serologic evidence of chicken infectious anemia in commercial chicken flocks in southwest Nigeria.

Sera samples from seven poultry farms in southwest Nigeria consisting of 7 broiler, 10 pullet, 1 layer, 1 cockerel, and 1 broiler breeder flocks were tested for the presence of chicken infectious anemia virus (CIAV) antibodies using a commercial enzyme-linked immunosorbent assay kit. Eleven of the 20 flocks (55%) and six out of seven (86%) farms were positive for CIAV antibodies. The seroprevalence largely depended on the age of the flocks. Seroprevalence was higher within the older pullet and layer flocks (83%-100%) than in the younger broiler flocks (0%-83%). In essence, all flocks older than 6 to 8 wk became infected. This is the first report of serologic evidence of CIAV in Subsaharan Africa. Since Southwest Nigeria is the main port of entry of imported chicken and the hub of major poultry breeders, the disease can probably be found throughout the country and beyond. Further studies are necessary to assess economic losses due to CIAV and the cost benefit of countermeasures.

High sequence diversity in infectious bursal disease virus serotype 1 in poultry and turkey suggests West-African origin of very virulent strains.

Fifty-eight outbreaks of Infectious bursal disease virus (IBDV) were observed in vaccinated chicken flocks in four Southwestern states of Nigeria between 1995 and 2000. Bursa samples from 40 flocks were found virus-positive in VP2-specific nested RT-PCR. Sequences of the hypervariable region of VP2 were compared to reference strains of the different IBDV variants including also 1988 isolates from Nigeria. Sequence analysis revealed that all 40 Nigerian isolates belonged to the very virulent (vv) variant. The maximum sequence diversity of 5.7% was higher than in all other vvIBDV sequences listed in Genbank (3.6%). Two clusters within Nigerian isolates are unique to this region. Serotype 1 IBDV was also detected in four symptomatic turkey flocks. The turkey isolates were found within 2 of the 3 VV-clusters of chicken isolates. Full length sequence of a turkey isolate (NIE009t) confirmed its close relation to vvIBDV strain D6948NET for both segment A (1.4% sequence diversity) and segment B (2.1%). Thus, turkeys should be considered susceptible to vvIBDV infection. The unusually high sequence diversity of vvIBDV may be an indication of a West-African origin of this virus, from where it spread to other continents.

Genetic analysis of Asian measles virus strains--new endemic genotype in Nepal.

In many parts of Asia measles virus (MV) continues to be endemic. However, little is known about the genetic characteristics of viruses circulating on this continent. This study reports the molecular epidemiological analysis based on the entire nucleocapsid (N) and hemagglutinin (H) genes of the first isolates from Nepal and Taiwan, as well as of recent MV strains from India, Indonesia, and China. Four isolates collected in various regions in Nepal during 1999 belonged to a new genotype, tentatively called D8. Another Nepalese isolate and one from India belonged to genotype D4. The diversity of the Nepalese strains indicated that measles continues to be endemic in this country. The isolate from Taiwan grouped with D3 viruses and one Chinese strain isolated in The Netherlands was assigned to the previously described clade H, known to be endemic in Mainland China. Molecular characterization emerges as an important tool for monitoring virus endemicity and vaccination efforts.

A naturally occurring point mutation in the beta3 integrin MIDAS-like domain affects differently alphavbeta3 and alphaIIIbbeta3 receptor function.

We have investigated the effect of a new Leu196Pro mutation, identified in the MIDAS-like domain of the beta3 integrin subunit in a patient with type II Glanzmann thrombasthenia, on beta3 integrin receptor function. Expression of the mutant beta3Pro196 subunit in CHO cells, either associated with recombinant human alphaIIb or alphav, resulted in normal biosynthesis of beta3 and heterodimerization with alphav or alphaIIb, but selectively interfered with alphaIIbbeta3 maturation and transport to the cell surface. Functional analysis of the beta3 mutant receptors revealed strong inhibition of alphavbeta3-mediated cell spreading on immobilized fibrinogen, focal contact formation, p125FAK phosphorylation and fibrin clot retraction, as opposed to normal alphaIIbbeta3-mediated cell interaction with immobilized fibrinogen, focal contact translocation and signaling. In contrast, antibody- or DTT-activated mutant aIIbbeta3 was unable to bind soluble fibrinogen or the ligand mimetic PAC-1 monoclonal antibody, but underwent a conformational change following RGD peptide binding as demonstrated by AP5-LIBS epitope expression. These results suggest that (1) the highly conserved TL196T motif in the beta3 integrin subunit is located in a domain structurally important for the exposure of a functional binding site for soluble fibrinogen; and (2) that the MIDAS-like contact site in beta3 is not involved in alphaIIbbeta3-mediated cell adhesion to immobilized fibrinogen, while it is essential for alphavbeta3-mediated interaction with this ligand.

Differential antigenicity of recombinant polyepitope-antigens based on loop- and helix-forming B and T cell epitopes.

To investigate a strategy for the design of chimeric antigens based on B cell epitopes (BCEs) we have genetically recombined multiple copies of loop- (L) and helix-forming (H) sequential and protective BCEs of the measles virus hemagglutinin protein (MVH) in a number of high-molecular-weight polyepitope constructs (24.5-45.5 kDa). The BCE cassettes were combined semi-randomly together with a promiscuous T cell epitope (TCE; tt830-844) to yield 13 different permutational constructs. When expressed in mammalian cells, all constructs were detectable by Western blot as distinct bands of predicted molecular weight. Flow cytometry with conformation-specific antibodies revealed the Cys-loop in two [(L(4)T(4))(2) and (L(2)T(2))(4)] and the helix conformation in one [(H(2)T(2))(4)] of the different permutational constructs. The larger constructs, containing 16 epitope cassettes, seemed more likely to express the BCEs in their native conformation than the 8-mers. In the T cell proliferation assay, constructs with a higher copy number of TCEs, such as (L(2)T(2))(4), were more antigenic, as long as tandem repeats were separated by spacers. Since the conformation of even sequential BCEs and the processing of TCEs are both sensitive to their molecular environment it is difficult to predict the antigenic properties of polyepitopes. However, with the permutational approach we have developed several polyepitope constructs [(L(4)T(4))(2), (L(2)T(2))(4), (H(2)T(2))(4)] based on complex sequential BCEs that are antigenic for both T and B cells. Several constructs induced sera that reacted with reporter peptides, demonstrating that the sequential nature of the viral epitopes was conserved in the polyepitopes. Although several sera contained antibodies directed against amino acids critical for neutralization, only one construct induced antibodies that cross-reacted with the virus. Our results show the difficulty of designing chimeric antigens based on B cell epitopes mimicking their antigenic and immunologic properties even when these are sequential in nature.

Resistance of recent measles virus wild-type isolates to antibody-mediated neutralization by vaccinees with antibody.

The neutralization capacity of sera from Luxembourgian adolescent vaccinees and from Nigerian women with measles-induced immunity to a number of measles virus strains was compared. Although both cohorts were matched for their hemagglutination inhibition and standard neutralization titers, 12 of the 22 late convalescent sera, and only 6 of 24 vaccinees neutralized all viruses. Similarly, only 2 of 20 viruses were not neutralized by at least 75% of late convalescent sera, in comparison to 10 of 20 viruses that resisted neutralization by at least 75% of the vaccinees. The more resistant viruses were not limited to a certain clade. One Nigerian virus was resistant to neutralization by 30% of the late convalescent women and by 75% of vaccinees. These results suggest that qualitative differences in neutralizing antibodies may reduce further protection of infants by passively acquired immunity against wild-type viruses when vaccinated girls become mothers.

An outbreak of African Swine Fever in Nigeria: virus isolation and molecular characterization of the VP72 gene of a first isolate from West Africa.

The isolation of 98/ASF/NG, a strain of African Swine Fever Virus (ASFV) associated with a 1998 epizootic in Nigeria, is reported. This first isolate of the virus from West Africa was identified through a successful polymerase chain reaction (PCR) amplification and sequencing of a 280 base pair (bp) fragment of the Major Capsid Protein (VP72) gene. Further amplification and sequence analysis of a 1.9 kilobase pair (kbp) fragment encompassing the complete VP72 gene showed that the isolate has a 92.2%, 92.4%, and 97.2% homology with previously sequenced Ugandan, Dominican Republican and Spanish isolates respectively. Of the 50 nucleotide changes observed in this highly conserved gene, 45 were found to result in 40 amino acid changes clustered around the central region (position 426 to 516) of the VP 72 protein while changes at the remaining 5 positions were silent. These changes also led to the loss of two out of the seven potential N-glycosylation sites which are in this gene conserved among all isolates. The possible epizootiological implications of such mutations in a highly conserved gene of a DNA virus is discussed in relation to this outbreak.

Genetic variability of measles viruses circulating in the Benelux.

In Europe measles incidence remains high and in some parts the disease is likely to be still endemic due to insufficient vaccination. Luxembourg experienced an outbreak with at least 110 cases in 1996, and cases continued to be reported throughout 1997. We used molecular epidemiology to investigate this apparent endemicity. On the basis of their N gene sequences, the isolates were assigned to the typical European C2 and D6 genotypes. Sequence diversity within the outbreak was 0.2%. The nucleotide distance between the C2-viruses of the outbreak and the other C2 isolates was at least three or four times higher, suggesting an independent origin of the latter viruses. Similarly, the four D6 viruses found in Luxembourg were thought to be of at least two or three origins. Thus, we propose here to use intra-outbreak sequence diversity to differentiate between sporadic endemic cases and a "pseudo-outbreak" of multiple unrelated imported cases.

Genotypic and antigenic characterization of hemagglutinin proteins of African measles virus isolates.

A comprehensive phylogenetic study based on the hemagglutinin (H) protein of all known African measles virus (MV) isolates is presented. The study includes 64 new H gene sequences from Ghana. Nigeria and South Africa as well as viruses from Zambia and The Gambia for which only incomplete sequencing data were available and that have previously not been genotyped. The results provide further support to the tentative assignment of the Nigerian and Ghanaian viruses to a new genotype B3 within clade B. A distinct geographic distribution pattern emerged with clade B viruses circulating exclusively in African countries north of the equator. All MV strains from southern Africa grouped in clades A and D with the majority of viruses belonging to genotype D4. The viruses considerably differed by their sensitivity to neutralization by monoclonal antibodies (mAb), but three selected antibodies were sufficient to distinguish between African MVs representing four different genotypes.

A hemagglutinin-derived peptide-vaccine ignored by virus-neutralizing passive antibodies, protects against murine measles encephalitis.

The neutralizing and protective monoclonal antibody BH47 defines the sequential epitope H236-255 of the measles virus hemagglutinin protein (MV-H). The objective of this study was to design peptides combining this B cell epitope (BCE) with different T cell epitopes (TCE) to obtain protective immunity. Most TTB peptides based on the 15mer BCE H236-250 induced MV-crossreactive antibodies, but only certain TCE induced virus neutralizing antibodies. The shortest BCE required for MV-reactivity and -neutralization was the 8mer H243-250 containing residue R243 implicated in CD46 down-regulation. Sera obtained after immunization with the TTB peptide containing the MV-derived TCE F421-435 protected mice against a lethal challenge with a neuro-adapted MV strain. Our results further demonstrate that this TTB peptide is fully immunogenic, even in the presence of protective levels of pre-existing MV-specific antibodies, suggesting that subunit vaccines based on such peptides could potentially be used to immunize infants in the presence of persisting maternal antibodies. It is therefore interesting that neutralizing antibodies were also obtained with a TTB peptide comprising a human promiscuous TCE (tt830). However, our results also emphasize the need to test sera induced with epitope-based vaccines against different virus strains, in particular if the epitope is not fully conserved.

Molecular epidemiology of Nigerian and Ghanaian measles virus isolates reveals a genotype circulating widely in western and central Africa.

Sub-Saharan Africa is one of the regions of the globe with the highest measles-related morbidity and mortality. Yet only seven virus isolates from this vast region have been phylogenetically characterized on the basis of their nucleoprotein, the last one in 1991. To characterize the prevalent wild-type viruses and to understand their circulation pattern, a large panel (n = 45) of isolates was collected in Ghana and Nigeria in 1997 and 1998. On the basis of their nucleoprotein sequence, the viruses clearly belong to clade B but a reshuffling of the structure of this clade was proposed, tentatively extending the number of genotypes from two to three on the basis of quantitative criteria. The sequences revealed the co-circulation of at least two distinct viruses in the cities of Lagos and Ibadan, suggesting that the number of susceptible individuals seems to be high enough to support endemic circulation of at least two distinct viruses. The endemic co-circulation of several viruses may well be a characteristic of communities with low vaccination rates. One of these viruses was also found in Accra in 1998 as well as in a 1994 case linked to distant Kenya, suggesting that clade B viruses are prevalent in sub-Saharan Africa while non-B viruses seem to dominate the south of Africa.

Processing of the DRB1*1103-restricted measles virus nucleoprotein determinant 185-199 in the endosomal compartment.

MHC class II molecules present to CD4+ T cells protein fragments which mostly derive from the extracellular and from the endosomal compartments. Determinants of cytosolic proteins are, however, also displayed by MHC class II molecules following pathways which are still not yet fully characterized. Here we describe the isolation of DRB1*1103-restricted T cell clones specific for the measles virus (MV) nucleoprotein peptide 185-199 (N185). Experiments were then conducted to delineate how this determinant is assembled with DR molecules. In vitro binding analyses indicated that complexes between the N185 peptide and DRB1*1103 protein are optimally constituted at pH 4-4.5. In cellular experiments it was observed that chloroquine, leupeptin and emetine, which are classical inhibitors of presentation of MHC class II-restricted antigens, when added during infection of B cells with MV, prevent presentation of the N185 determinant. In addition, it was found that the N185 determinant is efficiently presented when the nucleoprotein is exogenously provided to B cells, either by blocking MV fusion with the peptide FFG or by the use of purified nucleoprotein. In contrast, it was observed that nucleoprotein recombinant vaccinia virus (vv-N)-infected B cells weakly stimulated N185-specific T cells, indicating that the restricted localization of the nucleoprotein in the cytosol resulted in a poor presentation of the N185 determinant. Taken together, these findings suggest that it is prior to delivery of the nucleoprotein into the cytosol that the N185 determinant is efficiently assembled with newly synthesized DR molecules in the acidic environment of the endosomal compartment.

A simplified immunoassay based on measles virus recombinant hemagglutinin protein for testing the immune status of vaccinees.

Simplified tests based on recombinant antigens are considered to be important for monitoring immunity against measles virus (MV). The hemagglutinin protein (H) is the main target for neutralising and protective antibodies. We produced a recombinant MV-H protein, in a high-yield mammalian expression system based on the Semliki Forest virus replicon. The antigenicity of this recombinant protein was investigated with monoclonal antibodies and its suitability for measuring the immune status of vaccinees was tested in a large cohort by ELISA (H-ELISA). The results were evaluated against neutralisation (NT) and hemagglutination inhibition (HI) titers and MV-specific IgG measured in a commercial whole-virus based ELISA (MV-ELISA, Enzygnost). The H-ELISA correlated better with HI (r=0.78) and NT titers (r=0.80), than the MV-ELISA (HI, r=0.58; NT, r=0.59). In contrast to the MV-ELISA, the H-ELISA detected no false-positive sera (P < 0.02) and the number of false-negative sera was significantly lower in the H-ELISA than in the MV-ELISA (4/378 vs. 15/378; P < 0.025). The performance of the H-ELISA did not deteriorate significantly when, instead of background corrected net values, uncorrected raw O.D. values of the H-antigen were considered, or when early time points (30 min) were evaluated. These results demonstrate that the recombinant H-ELISA detects efficiently non-immune individuals among vaccinees, despite their relatively low MV-antibody levels. A simplified format with single value measurements did not result in loss of sensitivity or specificity and its performance compared favorably with commercial ELISAs based on whole virus.

Immunosorbent assay based on recombinant hemagglutinin protein produced in a high-efficiency mammalian expression system for surveillance of measles immunity.

Recombinant hemagglutinin (H) protein of the measles virus (MV) was produced in mammalian cells with a high-yield expression system based on the Semliki Forest virus replicon. Crude membrane preparations of H protein-transfected BHK-21 cells were used to coat microtiter plates to measure specific immunoglobulin G antibodies in 228 serologically defined serum samples mainly from measles late-convalescent adults. The titers by the enzyme-linked immunosorbent assay for the H protein (H-ELISA) closely correlated with neutralization test (NT) titers (R2 = 0.66), hemagglutination inhibition test (HI) titers (R2 = 0.64), with the titers from a certified commercial ELISA based on whole MV-infected cells (MV-ELISA; R2 = 0.45). The correlations described above were better than those of the commercial MV-ELISA titers with the NT (R2 = 0.52) or HI (R2 = 0.48) titers. By using the 2nd International Standard for anti-measles serum, the detection level of the assay corresponds to 215 mIU/ml for undiluted serum, which corresponds to the estimated threshold for protective immunity. The specificity, accuracy, and positive predictive value were, in general, better for the H-ELISA than for a commercial MV-ELISA, independent of whether HI, NT, or HI and NT were used as "gold standards." In contrast, the H-ELISA proved to be slightly less sensitive than the MV-ELISA (sensitivities, 98.6 versus 99.5%, respectively; P was not significant). The assays did not differ significantly in the number of serum samples with positive HI and NT results (n = 212) which measured false negative (H-ELISA, 2 of 212 [0.94%]; MV-ELISA, 1 of 212 [0.47%]), but the H-ELISA detected significantly more measles-susceptible individuals than the MV-ELISA (10 of 11 versus 3 of 11, respectively; P < 0.05) among the individuals whose sera had negative HI and NT results. Our data demonstrate that the H-protein preparation that we describe could be a cost-effective alternative to current whole-virus-based ELISAs for surveillance for immunity to measles and that such an assay could be more efficient in detecting susceptibility to measles. Furthermore, unlike whole MV-based antigens, H-protein would also be suitable for use in the development of a simple field test for the diagnosis of measles.

The processing routes determined by negatively charged residues in DR1-restricted T cell determinants.

The presentation pathways followed by DR1-restricted determinants from the fusion protein of measles virus were studied. By assessing the capacity of various APC preparations to stimulate fusion protein-specific T cells, it was shown that the determinant contained within the fusion protein sequence 254-268 (F254) relies on newly synthesized DR1 protein for its presentation. By contrast, the determinant contained within the fusion protein sequence 314-328 (F314) is captured by DR1 protein recycled from the plasma membrane. In vitro binding analyses showed that the F254 and F314 peptides optimally bind to DR1 at pH 4 and pH 5, respectively. In addition, it was found that binding of the F254 peptide to DR1 is much poorer at pH 7 than at pH 4, while binding of the F314 peptide was decreased only moderately at pH 7 as compared with pH 5. Substitution of the glutamic acid 261 for an alanine in the F254 peptide resulted in an analogue with an improved capacity of binding to DR1 at neutral pH. By contrast, replacement of the valine 319 by a glutamic acid in the F314 peptide generated an analogue with a decreased binding capacity at pH 7. These findings indicated that determinants that do not bear acidic residues are captured efficiently by DR1 molecules over a broader range of pH than determinants containing acidic residues. Binding analyses between DR1 and four additional peptides further supported this conclusion. Altogether, these results suggested that acidic residues, by tuning the optimal pH for the assembly of peptide-DR1 complexes, determine the processing pathway followed by the determinants.

Differential activation of T cells by antibody-modulated processing of the flanking sequences of class II-restricted peptides.

Despite poor presentation of measles virus (MV) nucleoprotein (NP) by MHC class II of infected cells, NP-specific antibodies are one of the hallmarks of the early immune response against this virus. To study the influence of antibodies on processing and presentation of NP to three different T cell hybridomas, mAb recognizing distinctive llnear NP epitopes were developed. Two T cell hybridomas TNP408B and TNP408 reacted with the same core epitope of NP (amino acids 383-391), but differed in their sensitivity to the flanking sequences of peptides containing this epitope. TNP408B reacted with minimal concentrations of NP when this was complexed with mAb BNP146. NP alone or saturating concentrations of other mAb did not activate this T cell. Both T cells, TNP408 and TNP408B, were similar in their sensitivity to NP in the presence of saturating concentrations of BNP146 or of appropriate peptide (NP379). TNP408 did not differ from another T cell hybridoma (TNP79) in its sensitivity to different mAb, suggesting a specificity-dependent and a specificity-independent effect of mAb. Antibody-mediated activation was attributed to FcR-mediated uptake independent of the fine specificity of the mAb. In the case of TNP408B, this effect was further enhanced by a specific effect of BNP146. While all NP-specific mAb were sufficient to enhance presentation to TNP408 and TNP79 of their respective peptides derived from processed NP, BNP146 was necessary to generate the peptides with the proper flanking sequences required by TNP408B. Since the binding site of BNP146 coincides with the T cell epitope of TNP408B (and TNP408) it is suggested that binding of this mAb modulates processing of the flanking sequences of the peptides corresponding to this epitope. This study shows that antibodies can influence the T cell response to an antigenic protein quantitatively and qualitatively by taking advantage of the sensitivity of T cells to flanking sequences of class II-restricted peptides.

Activation of T cells by the ragged tail of MHC class II-presented peptides of the measles virus fusion protein.

The efficient and sustained immune response of an antigen requires T cell epitopes, capable of inducing a long lasting T cell memory. To detect T cell epitopes of the measles virus fusion protein (MV-F), the proliferation of lymphocytes from late convalescent donors in response to overlapping pentadecapeptides covering the whole protein sequence was studied. Three major immunodominant regions (F51-70, F121-135 and F211-225) containing promiscuous peptides induce proliferation in peripheral blood lymphocytes in approximately 50% of the donors. Potential DR1-restricted epitopes were mapped using an MHC competition binding assay. Both the proliferation and the binding data identified a DR1-restricted T cell epitope (F51-65). Contact sites of the peptide HQSLVIKLMPNITLL with MHC were characterized using substitution analogs. Alanine substitutions at most positions did not interfere with F51-65 binding. These analogs were therefore useful for studying the residues which were recognized by the TCR of MV- and F51-induced T cells lines. In addition to amino acid residues of the core of peptide F51-65 both the C-terminal and the N-terminal amino acids were essential for T cell interaction. Since peptides presented by class II molecules vary in length, these findings suggest that residues of the ragged tail are important for T cell activation. It is speculated that in late convalescent donors the length of the flanking sequence of MHC II-restricted peptides may play a role in controlling the heterogeneity of MV-specific T cell clones recruited as T helper/memory cells.