Re: Quail May Be Key Link in Spread of Bird Flu

Just wanna tie these 2 threads together:

Re: Quail May Be Key Link in Spread of Bird Flu

Virology
Volume 310, Issue 1 , 25 May 2003, Pages 8-15
doi:10.1016/S0042-6822(03)00094-1

Replication and transmission of influenza viruses in Japanese quail

Natalia V. Makarova, Hiroishi Ozaki, Hiroshi Kida, Robert G. Webster and Daniel R. Perez

Abstract

Quail have emerged as a potential intermediate host in the spread of avian influenza A viruses in poultry in Hong Kong. To better understand this possible role, we tested the replication and transmission in quail of influenza A viruses of all 15 HA subtypes. Quail supported the replication of at least 14 subtypes. Influenza A viruses replicated predominantly in the respiratory tract. Transmission experiments suggested that perpetuation of avian influenza viruses in quail requires adaptation. Swine influenza viruses were isolated from the respiratory tract of quail at low levels. There was no evidence of human influenza A or B virus replication. Interestingly, a human?avian recombinant containing the surface glycoprotein genes of a quail virus and the internal genes of a human virus replicated and transmitted readily in quail; therefore, quail could function as amplifiers of influenza virus reassortants that have the potential to infect humans and/or other mammalian species.

Re: Quail May Be Key Link in Spread of Bird Flu

http://www.ncbi.nlm.nih.gov/entrez/q...&dopt=Abstract




<DL><DT><TABLE cellSpacing=0 cellPadding=0 width="100%"><TBODY><TR><TD><INPUT type=checkbox value=16325879 name=uid>1: Virology. 2006 Mar 15;346(2):278-86. Epub 2005 Dec 2.</TD><TD align=right>Related Articles,<SCRIPT language=JavaScript1.2><!--var PopUpMenu2_LocalConfig_jsmenu3Config = [ ["ShowCloseIcon","yes"], ["Help","window.open('/entrez/query/static/popup.html','Links_Help','resizable=no,scrollbars= yes,toolbar=no,location=no,directories=no,status=n o,menubar=no,copyhistory=no,alwaysRaised=no,depend =no,width=400,height=500');"], ["TitleText"," Links "]]var jsmenu3Config = [ ["UseLocalConfig","jsmenu3Config","",""]]//--></SCRIPT><SCRIPT language=JavaScript1.2><!--var Menu16325879 = [ ["UseLocalConfig","jsmenu3Config","",""], ["Books","window.top.location='http://www.ncbi.nlm.nih.gov/entrez/query.fcgi?itool=pubmed_Abstract&cmd=Retrieve&db=p ubmed&list_uids=16325879&dopt=Books'","",""], ["LinkOut","window.top.location='http://www.ncbi.nlm.nih.gov/entrez/query.fcgi?itool=pubmed_Abstract&cmd=Retrieve&db=p ubmed&list_uids=16325879&dopt=ExternalLink'","",""]]//--></SCRIPT> Links </TD></TR></TBODY></TABLE><DD>
Quail carry sialic acid receptors compatible with binding of avian and human influenza viruses.

Wan H, Perez DR.

Department of Veterinary Medicine, University of Maryland, College Park, MD 20742-3711, USA.

There is growing evidence that some terrestrial avian species may play a role in the genesis of influenza viruses with pandemic potential. In the present investigation, we examined whether quail, a widespread-farmed poultry, possess the proper characteristics for serving as an intermediate host for the zoonotic transmission of influenza viruses.

</DD>
<DD>Using a lectin-based staining based on specific agglutinins, we found that, in addition to the presence of sialic acid alpha2,3-galactose (SAalpha2,3-gal) linked receptors, there are abundant sialic acid alpha2,6-galactose (SAalpha2,6-gal) linked receptors in quail trachea and intestine. The presence of abundant SAalpha2,6-gal-linked receptors explains, at least in part, the circulation of avian influenza viruses with human-like receptor specificity in quail.

</DD>
<DD>In quail trachea, SAalpha2,3-gal linked receptors are present primarily in non-ciliated cells, while SAalpha2,6-gal linked receptors are localized predominantly on the surface of ciliated cells.

</DD>
<DD><DD>In quail intestine, both types of receptors were found on epithelial cells as well as in crypts. In a solid-phase overlay binding assay, both avian and human influenza viruses bind to plasma membranes prepared from epithelial cells of quail trachea and intestine, strongly suggesting that these receptors are functional for binding of influenza viruses from different species. <DD> <DD><DD><DD><DD>Together with previous observations, these results are consistent with the notion that quail could provide an environment for the spread of reassortants between avian and human influenza viruses, thus acting as a potential intermediate host.

PMID: 16325879 [PubMed - indexed for MEDLINE]


</DD></DL>.

Re: Quail May Be Key Link in Spread of Bird Flu

A selection of other FT threads about quails

Re: Quail May Be Key Link in Spread of Bird Flu

http://www.ncbi.nlm.nih.gov/entrez/q...=pubmed_docsum

1: Virology. 2001 Mar 15;281(2):156-62. <SCRIPT language=JavaScript1.2><!--var PopUpMenu2_LocalConfig_jsmenu3Config = [ ["ShowCloseIcon","yes"], ["Help","window.open('/entrez/query/static/popup.html','Links_Help','resizable=no,scrollbars= yes,toolbar=no,location=no,directories=no,status=n o,menubar=no,copyhistory=no,alwaysRaised=no,depend =no,width=400,height=500');"], ["TitleText"," Links "]]var jsmenu3Config = [ ["UseLocalConfig","jsmenu3Config","",""]]//--></SCRIPT><SCRIPT language=JavaScript1.2><!--var Menu11277689 = [ ["UseLocalConfig","jsmenu3Config","",""], ["Substance via MeSH","window.top.location='http://www.ncbi.nlm.nih.gov/entrez/query.fcgi?itool=pubmed_AbstractPlus&db=pubmed&cmd =Display&dopt=pubmed_pcsubstance_mesh&from_uid=112 77689'","",""], ["Cited in PMC","window.top.location='http://www.pubmedcentral.gov/tocrender.fcgi?action=cited&tool=pubmed&pubmedid=1 1277689'","",""], ["Books","window.top.location='http://www.ncbi.nlm.nih.gov/entrez/query.fcgi?itool=pubmed_AbstractPlus&cmd=Retrieve& db=pubmed&list_uids=11277689&dopt=Books'","",""], ["LinkOut","window.top.location='http://www.ncbi.nlm.nih.gov/entrez/query.fcgi?itool=pubmed_AbstractPlus&cmd=Retrieve& db=pubmed&list_uids=11277689&dopt=ExternalLink'"," ",""]]//--></SCRIPT> Links
<DD class=abstract id=abstract11277689>H9N2 influenza A viruses from poultry in Asia have human virus-like receptor specificity.

• Matrosovich MN,
• Krauss S,
• Webster RG.

Department of Virology and Molecular Biology, St. Jude Children's Research Hospital, Memphis, Tennessee 38105, USA. Mikhail.Matrosovich@med.uni-marburg.de
</DD><DD class=abstract>
H9N2 influenza A viruses are currently widespread in chickens, quail, and other poultry in Asia and have caused a few cases of influenza in humans.
</DD><DD class=abstract>
</DD><DD class=abstract>In this study, we found that H9N2 viruses from Hong Kong live bird markets have receptor specificity similar to that of human H3N2 viruses. In addition, the neuraminidase of poultry H9N2 viruses has mutations in its hemadsorbing site, a characteristic resembling that of human H2N2 and H3N2 viruses but differing from that of other avian viruses. Peculiar features of surface glycoproteins of H9N2 viruses from Hong Kong suggest an enhanced propensity for introduction into humans and emphasize the importance of poultry in the zoonotic transmission of influenza viruses.
</DD><DD class=abstract>
</DD><DD class=abstract>Copyright 2001 Academic Press.
</DD><DD class=abstract>PMID: 11277689 [PubMed - indexed for MEDLINE]
</DD>.

Re: Quail May Be Key Link in Spread of Bird Flu

http://www.ncbi.nlm.nih.gov/entrez/q...=pubmed_docsum

1: J Infect Dis. 2006 Jul 1;194(1):61-70. Epub 2006 May 26. <SCRIPT language=JavaScript1.2><!--var PopUpMenu2_LocalConfig_jsmenu3Config = [ ["ShowCloseIcon","yes"], ["Help","window.open('/entrez/query/static/popup.html','Links_Help','resizable=no,scrollbars= yes,toolbar=no,location=no,directories=no,status=n o,menubar=no,copyhistory=no,alwaysRaised=no,depend =no,width=400,height=500');"], ["TitleText"," Links "]]var jsmenu3Config = [ ["UseLocalConfig","jsmenu3Config","",""]]//--></SCRIPT><SCRIPT language=JavaScript1.2><!--var Menu16741883 = [ ["UseLocalConfig","jsmenu3Config","",""], ["Books","window.top.location='http://www.ncbi.nlm.nih.gov/entrez/query.fcgi?itool=pubmed_AbstractPlus&cmd=Retrieve& db=pubmed&list_uids=16741883&dopt=Books'","",""], ["LinkOut","window.top.location='http://www.ncbi.nlm.nih.gov/entrez/query.fcgi?itool=pubmed_AbstractPlus&cmd=Retrieve& db=pubmed&list_uids=16741883&dopt=ExternalLink'"," ",""]]//--></SCRIPT> Links
<DD class=abstract id=abstract16741883>Differential expression of chemokines and their receptors in adult and neonatal macrophages infected with human or avian influenza viruses.

• Zhou J,
• Law HK,
• Cheung CY,
• Ng IH,
• Peiris JS,
• Lau YL.

Department of Paediatrics and Adolescent Medicine, Hong Kong Jockey Club Clinical Research Centre, Faculty of Medicine, University of Hong Kong, Pokfulam, Hong Kong SAR, China.
</DD><DD class=abstract>
In 1997, avian influenza virus H5N1 was transmitted directly from chicken to human and resulted in a severe disease that had a higher mortality rate in adults than in children. The characteristic mononuclear leukocyte infiltration in the lung and the high inflammatory response in H5N1 infection prompted us to compare the chemokine responses between influenza virus-infected adult and neonatal monocyte-derived macrophages (MDMs).
</DD><DD class=abstract>
</DD><DD class=abstract>The effects of avian influenza virus A/Hong Kong/483/97 (H5N1) (H5N1/97), its precursor A/Quail/Hong Kong/G1/97 (H9N2) (H9N2/G1), and human influenza virus A/Hong Kong/54/98 (H1N1) (H1N1/98) were compared. Significantly higher expression of CCL2, CCL3, CCL5, and CXCL10 was induced by avian influenza viruses than by human influenza virus. Moreover, the increase in CCL3 expression in H5N1/97-infected adult MDMs was significantly higher than that in neonatal MDMs. Enhanced expression of CCR1 and CCR5 was found in avian virus-infected adult MDMs.
</DD><DD class=abstract>The strong induction of chemokines and their receptors by avian influenza viruses, particularly in adult MDMs, may account for the severity of H5N1 disease.
</DD><DD class=abstract>
PMID: 16741883 [PubMed - indexed for MEDLINE]
</DD>

Re: Quail May Be Key Link in Spread of Bird Flu

ah ... another long lost virus - H6!

http://www.ncbi.nlm.nih.gov/entrez/q..._uids=11752141

1: J Virol. 2002 Jan;76(2):507-16. <SCRIPT language=JavaScript1.2><!--var PopUpMenu2_LocalConfig_jsmenu3Config = [ ["ShowCloseIcon","yes"], ["Help","window.open('/entrez/query/static/popup.html','Links_Help','resizable=no,scrollbars= yes,toolbar=no,location=no,directories=no,status=n o,menubar=no,copyhistory=no,alwaysRaised=no,depend =no,width=400,height=500');"], ["TitleText"," Links "]]var jsmenu3Config = [ ["UseLocalConfig","jsmenu3Config","",""]]//--></SCRIPT><SCRIPT language=JavaScript1.2><!--var Menu11752141 = [ ["UseLocalConfig","jsmenu3Config","",""], ["Substance via MeSH","window.top.location='http://www.ncbi.nlm.nih.gov/entrez/query.fcgi?itool=pubmed_AbstractPlus&db=pubmed&cmd =Display&dopt=pubmed_pcsubstance_mesh&from_uid=117 52141'","",""], ["Cited Articles","window.top.location='http://www.ncbi.nlm.nih.gov/entrez/query.fcgi?itool=pubmed_AbstractPlus&db=pubmed&cmd =Display&dopt=pubmed_pubmed_refs&from_uid=11752141 '","",""], ["Nucleotide","window.top.location='http://www.ncbi.nlm.nih.gov/entrez/query.fcgi?itool=pubmed_AbstractPlus&db=pubmed&cmd =Display&dopt=pubmed_nucleotide&from_uid=11752141' ","",""], ["Protein","window.top.location='http://www.ncbi.nlm.nih.gov/entrez/query.fcgi?itool=pubmed_AbstractPlus&db=pubmed&cmd =Display&dopt=pubmed_protein&from_uid=11752141'"," ",""], ["Free in PMC","window.top.location='http://www.pubmedcentral.gov/articlerender.fcgi?tool=pubmed&pubmedid=11752141'" ,"",""], ["Cited in PMC","window.top.location='http://www.pubmedcentral.gov/tocrender.fcgi?action=cited&tool=pubmed&pubmedid=1 1752141'","",""], ["Books","window.top.location='http://www.ncbi.nlm.nih.gov/entrez/query.fcgi?itool=pubmed_AbstractPlus&cmd=Retrieve& db=pubmed&list_uids=11752141&dopt=Books'","",""], ["LinkOut","window.top.location='http://www.ncbi.nlm.nih.gov/entrez/query.fcgi?itool=pubmed_AbstractPlus&cmd=Retrieve& db=pubmed&list_uids=11752141&dopt=ExternalLink'"," ",""]]//--></SCRIPT> Links
<DD class=abstract id=abstract11752141>Molecular evolution of H6 influenza viruses from poultry in Southeastern China: prevalence of H6N1 influenza viruses possessing seven A/Hong Kong/156/97 (H5N1)-like genes in poultry.

• Chin PS,
• Hoffmann E,
• Webby R,
• Webster RG,
• Guan Y,
• Peiris M,
• Shortridge KF.

Department of Microbiology, Queen Mary Hospital, The University of Hong Kong, Hong Kong Special Administrative Region, People's Republic of China. posmchin@graduate.hku.hk
</DD><DD class=abstract>
The A/teal/Hong Kong/W312/97 (H6N1) influenza virus and the human H5N1 and H9N2 influenza viruses possess similar genes encoding internal proteins, suggesting that H6N1 viruses could become novel human pathogens.
</DD><DD class=abstract>
</DD><DD class=abstract>The molecular epidemiology and evolution of H6 influenza viruses were characterized by antigenic and genetic analyses of 29 H6 influenza viruses isolated from 1975 to 1981 and 1997 to 2000. Two distinct groups were identified on the basis of their antigenic characteristics. Phylogenetic analysis revealed that all H6N1 viruses isolated from terrestrial poultry in 1999 and 2000 are closely related to A/teal/Hong Kong/W312/97 (H6N1), and the nucleotide sequences of these viruses and of A/Hong Kong/156/97 (H5N1) were more than 96% homologous. The hemagglutinin (HA) of the 1999 and 2000 terrestrial viruses does not have multiple basic amino acids at the site of cleavage of HA1 to HA2; however, a unique insertion of aspartic acid in HA1 between positions 144 and 145 (H3 numbering) was found. The neuraminidase of these terrestrial H6N1 viruses has a deletion of 19 amino acids characteristic of A/Hong Kong/156/97 (H5N1).
</DD><DD class=abstract>
</DD><DD class=abstract>Evolutionary analysis suggested that these H6N1 viruses coevolved with A/quail/Hong Kong/G1/97-like H9N2 viruses and became more adapted to terrestrial poultry. These terrestrial 1999 and 2000 A/teal/Hong Kong/W312/97 (H6N1)-like viruses, along with the H9N2 viruses, could have been involved in the genesis of the pathogenic H5N1 influenza viruses of 1997.
</DD><DD class=abstract>
</DD><DD class=abstract>The presence of H6N1 viruses in poultry markets in Hong Kong that possess seven of the eight genes of the A/Hong Kong/156/97 (H5N1) virus raises the following fundamental questions relevant to influenza pandemic preparedness: could the pathogenic H5N1 virus reemerge and could the H6N1 viruses directly cross the species barrier to mammals?
</DD><DD class=abstract>
</DD><DD class=abstract>PMID: 11752141 [PubMed - indexed for MEDLINE]
</DD>

Re: Quail May Be Key Link in Spread of Bird Flu

I don't want to post the whole article......it's so long.

http://jvi.asm.org/cgi/content/full/77/5/3148

Role of Quail in the Interspecies Transmission of H9 Influenza A Viruses: Molecular Changes on HA That Correspond to Adaptation from Ducks to Chickens

ABSTRACT
<TABLE cellPadding=5 align=right border=1><TBODY><TR><TH align=left>Top
Abstract
Introduction
Materials and Methods
Results
Discussion
References
</TH></TR></TBODY></TABLE>

H9 influenza viruses have become endemic in land-based domestic<SUP> </SUP>poultry in Asia and have sporadically crossed to pigs and humans.<SUP> </SUP>To understand the molecular determinants of their adaptation<SUP> </SUP>to land-based birds, we tested the replication and transmission<SUP> </SUP>of several 1970s duck H9 viruses in chickens and quail. Quail<SUP> </SUP>were more susceptible than chickens to these viruses, and generation<SUP> </SUP>of recombinant H9 viruses by reverse genetics showed that changes<SUP> </SUP>in the HA gene are sufficient to initiate efficient replication<SUP> </SUP>and transmission in quail.

Seven amino acid positions on the<SUP> </SUP>HA molecule corresponded to adaptation to land-based birds.<SUP> </SUP>In quail H9 viruses, the pattern of amino acids at these seven<SUP> </SUP>positions is intermediate between those of duck and chicken<SUP> </SUP>viruses; this fact may explain the susceptibility of quail to<SUP> </SUP>duck H9 viruses. Our findings suggest that quail provide an<SUP> </SUP>environment in which the adaptation of influenza viruses from<SUP> </SUP>ducks generates novel variants that can cross the species barrier.<SUP> </SUP>
<SUP></SUP>
<SUP>.</SUP>
<SUP>.</SUP>
<SUP>.</SUP>
<SUP>.</SUP>
<SUP>.</SUP>
<SUP>.</SUP>
DISCUSSION
<TABLE cellPadding=5 align=right border=1><TBODY><TR><TH align=left>Top
Abstract
Introduction
Materials and Methods
Results
Discussion
References
</TH></TR></TBODY></TABLE>

The mechanism responsible for the establishment of H9 viruses<SUP> </SUP>in land-based poultry is poorly defined. In this study, we found<SUP> </SUP>that H9N2 viruses isolated from ducks in Hong Kong in the 1970s<SUP> </SUP>replicate more readily in quail than in chickens and that infection<SUP> </SUP>is established mostly in the respiratory tract. The latter observation<SUP> </SUP>is consistent with the premise that infection of quail can promote<SUP> </SUP>a change in the tissue tropism of avian influenza A viruses,<SUP> </SUP>allowing the emergence of variants that transmit by aerosol.<SUP> </SUP>Unlike quail, chickens were generally refractory to infection<SUP> </SUP>with these viruses. The greater susceptibility of quail is consistent<SUP> </SUP>with the fact that quail were the first land-based birds in<SUP> </SUP>Asia from which H9N2 viruses were isolated. Interestingly, by<SUP> </SUP>1988, H9N2 viruses isolated from quail had already acquired<SUP> </SUP>some of the molecular markers associated with established virus<SUP> </SUP>lineages in land-based birds (Table 3). The transmissibility<SUP> </SUP>of the 1988 quail virus from quail to chickens (Table 1) further<SUP> </SUP>supports the hypothesis that quail can act as an intermediate<SUP> </SUP>host in the interspecies spread of influenza viruses.

We also<SUP> </SUP>demonstrated that changes on the surface of the HA protein are<SUP> </SUP>sufficient to allow efficient replication and transmission in<SUP> </SUP>quail (Table 2). In contrast, viruses may have to undergo molecular<SUP> </SUP>changes in their internal genes before they are able to replicate<SUP> </SUP>and be transmitted in chickens.<SUP> </SUP>
<SUP></SUP>

We identified seven amino acids on the H9 HA glycoprotein that<SUP> </SUP>correspond to the adaptation of H9 viruses to land-based birds.<SUP> </SUP>Because these amino acids are found in viruses that have become<SUP> </SUP>endemic in chickens after multiple introductions from the aquatic<SUP> </SUP>bird reservoir (10), we speculate that they can confer important<SUP> </SUP>biological advantages.

Interestingly, quail viruses have amino<SUP> </SUP>acids at these seven positions that correspond to those of chicken<SUP> </SUP>and/or duck viruses (Table 3). One of these amino acids (at<SUP> </SUP>position 146) is near the receptor-binding site and is likely<SUP> </SUP>to influence the binding of the HA molecule to the sialic acid<SUP> </SUP>receptor (Fig. 5). Two other residues are at positions -4 and<SUP> </SUP>-2 of the HA1-HA2 cleavage site, where the basic amino acids<SUP> </SUP>arginine (or lysine) at -4 and serine at -2 are characteristic<SUP> </SUP>of chicken and quail viruses.

Our results suggest that H9 viruses<SUP> </SUP>that contain an aspartic acid at position -2 of the HA1-HA2<SUP> </SUP>cleavage site replicate poorly in chickens and quail. The remaining<SUP> </SUP>four amino acid residues related to species specificity occupy<SUP> </SUP>positions that have not been recognized as important host range<SUP> </SUP>markers, although three of these positions (109 in HA1 and 135<SUP> </SUP>and 160 in HA2) could influence the pH of fusion of the HA molecule<SUP> </SUP>to the host endosomal membrane. Ongoing studies will reveal<SUP> </SUP>the biological importance of these residues in the host range<SUP> </SUP>of H9 viruses.

Our results support the hypothesis that quail<SUP> </SUP>play an important role in the evolution of influenza viruses<SUP> </SUP>by acting as intermediate hosts in which avian influenza viruses<SUP> </SUP>can be amplified and transmitted to other animal species. It<SUP> </SUP>is possible that programs aimed at the prevention of influenza<SUP> </SUP>pandemics should include influenza virus surveillance in quail<SUP> </SUP>and related species, not only in China but also in other parts<SUP> </SUP>of the world.<SUP> </SUP>
<SUP></SUP><!-- null -->

<!-- null -->.

Re: Quail May Be Key Link in Spread of Bird Flu

Awesome set of articles, AD. Thanks!!

Re: Quail May Be Key Link in Spread of Bird Flu

In addition to the a2,3 and a2,6 receptor capability, this is what really concerns me...(lst article)

...infection of quail can promote<SUP> </SUP>a change in the tissue tropism of avian influenza A viruses,<SUP> </SUP>allowing the emergence of variants that transmit by aerosol.

Re: Quail May Be Key Link in Spread of Bird Flu

Check this one

It take place in february 2005 just before the indonesian swine outbreak that also been followed by the firsts humans cases...

just coincidence ?

My faforite quote in this is "The authorities have insisted that, overall, the deadly disease is under control." , just funny to listen to this almost 1 year & 1/2 after...

Re: Quail May Be Key Link in Spread of Bird Flu

Maybe the S in RESRRKKR came from quail???

I wonder if this is behind the recent WHO announcements to "get ready" for worst case scenerio?

.