Differential Disease Susceptibilities in Experimentally Reptarenavirus-Infected Boa Constrictors and Ball Pythons

Abstract: Inclusion body disease (IBD) is an infectious disease originally described in captive snakes. It has traditionally been diagnosed by the presence of large eosinophilic cytoplasmic inclusions and is associated with neurological, gastrointestinal, and lymphoproliferative disorders. Previously, we identified and established a culture system for a novel lineage of arenaviruses isolated from boa constrictors diagnosed with IBD. Although ample circumstantial evidence suggested that these viruses, now known as reptar… Show more

“…The finding that IBs contain reptarenavirus NP further supported the link between reptarenavirus infection and BIBD [15]. Experimental infection of boas and pythons with purified reptarenaviruses provided unequivocal evidence that reptarenaviruses can cause BIBD [14]. Interestingly, in this experiment, pythons developed strong CNS signs without evidence of IB formation, whereas seemingly healthy boas harbored large IBs in most tissues [14].…”

“…While this finding is rather surprising, it could reflect the fact that the reptilian cell lines included in the study represent quite homogenic cell populations that derive from spontaneously immortalized cultures generated from homogenates of different tissues. Given the limitation of our study, the results do not rule out the possibility of efficient viral replication in the brain nor in this particular cell line, since reptarenavirus IBs are generally frequent in neurons in the brain of boas [13][14][15]23]. The reptarenavirus GPs differentially mediated entry into boa (V/1Liv) and python (VII/1Liv) liver cells; while the boa cells were rather permissive, the python cells appeared to be non-permissive.…”

“…Experimental infection of boas and pythons with purified reptarenaviruses provided unequivocal evidence that reptarenaviruses can cause BIBD [14]. Interestingly, in this experiment, pythons developed strong CNS signs without evidence of IB formation, whereas seemingly healthy boas harbored large IBs in most tissues [14]. Moreover, we have documented vertical transmission of reptarenaviruses and hartmaniviruses in boas, and the swarm of reptarenavirus genome segments transmitted can vary between the offspring [23].…”

“…Hartmaniviruses appear to target neuronal and smooth muscle cells [22], while reptarenaviruses infect a wide range of cell types [14,48]. Interestingly, snakes with BIBD often carry more L than S segments [20,21,23], and the distribution of segments may vary between tissues of the same individual [20,23].…”

“…Our results confirm an important role of the virus surface GP in reptarenavirus cell tropism and that mamma-and reptarenaviruses exhibit high cross-species transmission potential.Viruses 2020, 12, 395 2 of 16 Boid Inclusion Body Disease (BIBD), initially recognized in the 1970s, affects mainly captive boas and pythons [11]. BIBD is characterized by the formation of electron dense intracytoplasmic inclusion bodies (IB) [12] in various cell types (including blood cells) and tissues [13][14][15]. BIBD spreads efficiently within collections, and the recommendation to euthanize snakes with BIBD can lead to loss of entire collections [11].…”

Differences in Tissue and Species Tropism of Reptarenavirus Species Studied by Vesicular Stomatitis Virus Pseudotypes

“…The finding that IBs contain reptarenavirus NP further supported the link between reptarenavirus infection and BIBD [15]. Experimental infection of boas and pythons with purified reptarenaviruses provided unequivocal evidence that reptarenaviruses can cause BIBD [14]. Interestingly, in this experiment, pythons developed strong CNS signs without evidence of IB formation, whereas seemingly healthy boas harbored large IBs in most tissues [14].…”

“…While this finding is rather surprising, it could reflect the fact that the reptilian cell lines included in the study represent quite homogenic cell populations that derive from spontaneously immortalized cultures generated from homogenates of different tissues. Given the limitation of our study, the results do not rule out the possibility of efficient viral replication in the brain nor in this particular cell line, since reptarenavirus IBs are generally frequent in neurons in the brain of boas [13][14][15]23]. The reptarenavirus GPs differentially mediated entry into boa (V/1Liv) and python (VII/1Liv) liver cells; while the boa cells were rather permissive, the python cells appeared to be non-permissive.…”

“…Experimental infection of boas and pythons with purified reptarenaviruses provided unequivocal evidence that reptarenaviruses can cause BIBD [14]. Interestingly, in this experiment, pythons developed strong CNS signs without evidence of IB formation, whereas seemingly healthy boas harbored large IBs in most tissues [14]. Moreover, we have documented vertical transmission of reptarenaviruses and hartmaniviruses in boas, and the swarm of reptarenavirus genome segments transmitted can vary between the offspring [23].…”

“…Hartmaniviruses appear to target neuronal and smooth muscle cells [22], while reptarenaviruses infect a wide range of cell types [14,48]. Interestingly, snakes with BIBD often carry more L than S segments [20,21,23], and the distribution of segments may vary between tissues of the same individual [20,23].…”

“…Our results confirm an important role of the virus surface GP in reptarenavirus cell tropism and that mamma-and reptarenaviruses exhibit high cross-species transmission potential.Viruses 2020, 12, 395 2 of 16 Boid Inclusion Body Disease (BIBD), initially recognized in the 1970s, affects mainly captive boas and pythons [11]. BIBD is characterized by the formation of electron dense intracytoplasmic inclusion bodies (IB) [12] in various cell types (including blood cells) and tissues [13][14][15]. BIBD spreads efficiently within collections, and the recommendation to euthanize snakes with BIBD can lead to loss of entire collections [11].…”

Differences in Tissue and Species Tropism of Reptarenavirus Species Studied by Vesicular Stomatitis Virus Pseudotypes

Terrestrial reptiles: lizards, snakes and tortoises

Viruses of Reptiles