[Genetic Characteristics of Type 2 Vaccine-derived Poliovirus in Shanxi Province (China) in 2014].

The World Health Organization redefined the type 2 vaccine-derived poliovirus (VDPV) in 2010. To study the genetic characteristics and evolution of type 2 VDPV under this new definition, we conducted genome sequencing and analyses of type 2 VDPVs isolated from one patient with acute flaccid paralysis in Shanxi province (China) in 2014. Nucleotide sequencing revealed that the full-length of type 2 VDPV is 7439 bases encoding 2207 amino acids with no insertion or deletion of nucleotides compared with Sabin2. One nucleotide substitution identified as a key determinant of the attenuated phenotype of the Sabin 2 strain (A-G reversion at nucleotide nt 481 in the 5-end of the untranslated region) had reverted in the Shanxi type 2 VDPV. The other known key determinant of the attenuated phenotype of the Sabin 2 strain (U-->C reversion at nt2909 in the VP1 coding region that caused a Ile143Thr substitution in VP1) had not reverted in the Shanxi VDPV. The Shanxi type 2 VDPV was S2/S1 recombinant, the crossover site of which mapped to the 3-end of the 3D region (between nt 6247 and nt 6281). A phylogentic tree based on the VP1 coding region showed that evolution of the Shanxi type 2 VDPV was independent of other type 2 VDPVs detected worldwide. We estimated that the strain circulated for approximately = 11 months in the population according to the known evolution rate. The present study confirmed that the Chinese Polio Laboratory Network could discover the VDPV promptly and that it played an important part in maintenance of a polio-free China.

Vaccine-derived mutation in motif D of poliovirus RNA-dependent RNA polymerase lowers nucleotide incorporation fidelity.

All viral RNA-dependent RNA polymerases (RdRps) have a conserved structural element termed motif D. Studies of the RdRp from poliovirus (PV) have shown that a conformational change of motif D leads to efficient and faithful nucleotide addition by bringing Lys-359 into the active site where it serves as a general acid. The RdRp of the Sabin I vaccine strain has Thr-362 changed to Ile. Such a drastic change so close to Lys-359 might alter RdRp function and contribute in some way to the attenuated phenotype of Sabin type I. Here we present our characterization of the T362I RdRp. We find that the T362I RdRp exhibits a mutator phenotype in biochemical experiments in vitro. Using NMR, we show that this change in nucleotide incorporation fidelity correlates with a change in the structural dynamics of motif D. A recombinant PV expressing the T362I RdRp exhibits normal growth properties in cell culture but expresses a mutator phenotype in cells. For example, the T362I-containing PV is more sensitive to the mutagenic activity of ribavirin than wild-type PV. Interestingly, the T362I change was sufficient to cause a statistically significant reduction in viral virulence. Collectively, these studies suggest that residues of motif D can be targeted when changes in nucleotide incorporation fidelity are desired. Given the observation that fidelity mutants can serve as vaccine candidates, it may be possible to use engineering of motif D for this purpose.

Papel del Laboratorio Nacional de Poliovirus en el Programa de erradicación y vigilancia de la poliomielitis / Role of the national poliovirus laboratory for the program of eradication and poliomyelitis surveillance

El Laboratorio Nacional de Poliovirus (LNP) coordina la Red Española de Vigilancia de Parálisis Flácida Aguda desde 1998 y caracteriza los poliovirus (PV) y otros enterovirus detectados, utilizando métodos de cultivo celular y moleculares. Durante 1998-2012 se estudiaron por la Red un total de 110.725 (70.046+40.679) muestras clínicas, resultando positivas para enterovirus 8.804 (8%), entre las que 241 se caracterizaron como PV. La caracterización intratípica demostró que todos los PV eran vacunales excepto las muestras correspondientes a un caso importado de poliomielitis postvacunal y sus contactos, que fueron caracterizados como PV2 derivado de vacuna. En el LNP se ha realizado el serotipado y la caracterización intratípica de todos los PV aislados en España de cualquier síndrome. Con ello se ha demostrado que el PV salvaje no ha circulado en nuestro país durante los 15 años que recoge este trabajo y eso condujo a la firma del Acta de la “Erradicación de la Poliomielitis en España” por parte de la OMS en 2001 y a la “Certificación de la Erradicación Europea como libre de circulación de PV salvaje” el 21 de junio de 2002. En la actualidad sólo 3 países presentan transmisión endémica de PV salvaje (Pakistán, Afganistán y Nigeria) y hasta que no se haya conseguido la erradicación a nivel mundial, España debe mantener la infraestructura creada en el Plan de Erradicación de la Poliomielitis y continuar con la vigilancia e inmunización. También el Programa de Contención de los PV salvajes en los laboratorios debe seguir en activo para evitar reintroducciones accidentales (AU)

The Spanish acute flaccid paralysis surveillance network is coordinated by the National Poliovirus Laboratory (NPL), which, since 1998, carries out polioviruses (PV) and other enteroviruses detected characterization by cell culture and molecular techniques. A total of 110,725 (70046+40679) samples were studied between 1998-2012 and enteroviruses were detected in 8% of these. Among these enteroviruses 241 PV were characterized as PV Sabin-like, except samples belong to an imported poliomyelitis case, all of which were characterised as vaccine derived PV type 2. The NPL has carried out the serotyping and the intratypic differentation of all the isolated PV in Spain of any syndrome. It is shown that wild PV has not circulated in our country during the 15 years studied and that has led to the signing of the Act of the “eradication of poliomyelitis in Spain” by WHO in 2001, and the “certification of the eradication of wild PV free for European countries” on 21 June 2002. Currently only 3 countries have endemic transmission of wild PV (Pakistan, Afghanistan and Nigeria). Until a complete worldwide eradication, was achieved, Spain will actively continue to participate in the maintenance of the poliomyelitis eradication infrastructure by monitoring and vaccination as well as the wild PV containment plan to avoid the spread of wild PV (AU)

Vacunas antipoliomieliticas, erradicación y posterradicación / Polio vaccines, eradication and posterradication

La vacunación antipoliomielítica genera inmunidad de grupo (con vacunas atenuadas (VPO) e inactivadas (VPI) y ello permitirá la erradicación de la enfermedad. La VPO produce de 2-4 casos de poliomielitis por cohorte de un millón de niños y por ello los países que pueden hacer frente al coste de la VPI (unas 15 veces más cara) la utilizan. En 1988 la Asamblea de la Organización Mundial de la Salud aprobó el objetivo de la erradicación como “la interrupción de la transmisión de poliovirus salvajes”. Si se conseguía su eliminación, el mantenimiento de la VPO produciría al año entre 250 y 500 casos de poliomielitis en el mundo. Desde 1999 era evidente que la erradicación requeriría la cesación de la vacunación con VPO. El 25 de enero del 2013 se aprobó el plan para la erradicación y la contención de todos los virus de la polio, salvajes o no, para que ningún niño sufra una poliomielitis paralítica. Los hitos más importantes incluyen, la no aparición de casos de polio salvaje tras el año 2014, la introducción de al menos una dosis de VPI en todos los programas de vacunación y que se suspenda la vacunación con VPO tipo 2 al final del 2016 y que en 2019 se pueda cesar de utilizar la vacuna bivalente oral. Para todo ello será preciso un trabajo científico complejo y solidaridad financiera (AU)

Vaccination against polio generates herd immunity (both with the attenuated (OPV) and inactivated (IPV) vaccines) and this will allow the eradication of the disease. The OPV vaccine produces 2-4 polio cases per cohort of one million children and therefore IPV is used in countries that can afford its cost (about 15 times more expensive than OPV). In 1988 the World Health Assembly established the polio eradication goal as “interruption of wild poliovirus transmission”. If the elimination of wild poliovirus were achieved, the use of OPV will produce annually between 250 and 500 cases of polio in the world. From 1999, it was clear that eradication would require ending of immunization with OPV. On the 25th of January, 2013 it is approved the plan for the eradication and containment of all polioviruses, wild or not, so that no child suffers paralytic poliomyelitis. The most important landmarks include the lack of wild polio cases after 2014, the introduction of at least one dose of IPV in all immunization programs and to cease the type 2 OPV vaccination by the end of 2016 and to stop the use of the oral bivalent vaccine in 2019. To achieve all this, a complex scientific work and economic solidarity will be required (AU)

[Formation and identification of virus-like particles of poliovirus type I].

OBJECTIVE: To establish a method to produce virus-like particles (VLP) of poliovirus type I in Saccharomy cescerevisiae to develop potential novel recombinant vaccine against poliovirus type 1. METHODS: The genes of P1 and 3CD of poliovirus type I were optimized, synthesized and inserted into expression vector, which was further transfected into Saccharomy cescerevisiae. The extracts of yeast cells were purified by CsCl density gradient centrifugation after induction and cell lysis. RESULTS: Electrophoresis and sequencing analyses showed that the genes P1 and 3CD of poliovirus type I were successfully inserted into expression vector and encode a protein whose amino acid sequences were identical with wide-type genes of poliovirus type I. Electronic microscopy analysis showed that the VLPs of poliovirus type I could be efficiently formed in Saccharomy cescerevisiae. CONCLUSION: The VLPs of poliovirus type I could be efficiently produced by co-expression of P1 and 3CD genes in Saccharomy cescerevisiae.

Endogenous neosynthesis vs. cross-presentation of viral antigens for cytotoxic T cell priming.

Induction of antiviral cytotoxic T lymphocytes (CTLs) has been proposed to require cross-presentation of viral antigens derived from infected extralymphatic host cells by antigen-presenting cells (APC). This postulated mechanism of cross-priming is thought to be essential for CTL responses against viruses that do not infect professional APC, e.g., because of absence of the specific virus receptor. Here, we show for the human pathogen poliovirus that naturally nonpermissive murine APC acquire viral RNA in vivo independently of the cellular virus receptor. Uptake of poliovirus or polioviral RNA initiated neosynthesis of viral antigen to an extent sufficient to prime CTLs in vivo, which were detectable 2-3 wk after infection. Our results do not only indicate that experiments studying cross-presentation and cross-priming by using potentially amplifiable or translatable materials need careful examination, but they also question the general biological importance of cross-presentation and cross-priming in antiviral CTL responses.

Presence of cytokines in biological preparations.

In vaccines produced in eukaryote cells as well as in commercial medical preparations of leukocyte interferon a number of cytokines such as IL-1beta, IL-6 and TNF-alpha have been detected. Among the vaccines examined in this study the highest level of IL-1beta was demonstrated in inactivated hepatitis A vaccine prepared in the green monkey kidney cell line 4647, that of IL-6 in inactivated rabies vaccine produced in Syrian hamster kidney (SHK) cell culture, and that of TNF-alpha in live poliomyelitis vaccine manufactured in VERO cells. A spontaneous and poliovirus-induced capacity of cell cultures to produce cytokines was detected. The level of cytokines produced depend on the kind of cell culture and the type of virus, a more pronounced effect being generated by types 1 and 2 poliovirus as compared with type 3. The presence of highly active cytokines in virus vaccines and interferon preparations points to the necessity of investigating the influence of the presence of cytokines on the biological activity of these preparations and to the advisability of standardizing and controlling the cytokine content.