These data are consistent with the hypothesis that the adaptation of invertebrate-infecting nsRNA ancestor viruses to plants happened several times through independent events during the evolutionary history of nsRNA viruses infecting plants. It is worthy of note that rubodviruses, laulaviruses, and coguviruses, although phylogenetically related, have divergent genome structures and gene expression strategies. In fact, the members of the first two genera have a genome composed of three monocistronic nsRNAs encoding different proteins;RdRp, NP, and putative MP in the case of rubodviruses, and RdRp, NP and a protein of unknown function in the case of laulaviruses. Instead, coguviruses have a bipartite genome consisting of one nsRNA encoding the RdRp , and one ambisense RNA , in which the ORFs encoding the NP and the MP are separated by a long intergenic region . It has been shown that such an IR is AU-rich and self-complementary, thus assuming in both polarity strands a compact conformation containing a long hairpin predicted to serve as a transcription termination signal during the expression of viral genes.
Taking this into consideration, the question arises of how viruses with such different genomic organizations may have evolved from the same ancestor virus. In this respect,planting gutter it can be speculated that a recombination event between the viral and the vc strand of two genomic RNAs with long, AU rich, and almost identical 50 UTRs could generate ambisense RNAs containing an IR similar to those of coguviruses. Since nsRNA viruses with genomic RNAs showing structural features compatible with this possibility were not known previously, such a possibility appeared unlikely. However, the very long, AU-rich, and highly conserved 50 UTRs reported here for RNA 2 and RNA 3 of GMRV and GGDV, and also observed in the corresponding RNAs of ARWV1 and ARWV2, are the first clear evidence that nsRNA viruses with the structural features compatible with this evolutionary scenario may exist. Based on these considerations, the possibility that the bipartite genomes of coguviruses originated from a tripartite ancestor with genomic RNAs containing 50 UTRs similar to those observed in the rubodviruses appears feasible. No glycoprotein is encoded by rubodviruses , a feature previously reported also for coguviruses that, according to electron microscopy observations, are flexuous, non-enveloped viruses.
In contrast, glycoproteins are expressed by most nsRNA plant viruses transmitted by arthropods . The lack of glycoprotein in the genome of rubodviruses and coguviruses opens the question on the existence of vectors, if any, involved in their transmission. In this respect, it is worthy of note that ophioviruses and varicosaviruses, which are plant-restricted or transmitted by fungi, also do not code for any glycoprotein. Vegetative propagation has been proposed as the prevalent transmission mechanism for ARWV1 and ARWV2. Whether, this is also the case for GMRV and GGDV needs further investigation. Most plant viruses code for viral suppressor proteins counteracting the plant antiviral defense mechanisms based on RNA silencing. Further studies are needed to ascertain whether one or more of the three proteins encoded by GGDV and GMRV and other rubodviruses may interfere with RNA silencing, thus showing multifunctional role, as already reported for VSRs of other viruses. GMRV and GGDV were identified in two different grapevines cultivars, Muscat rose and Garan dmak, that were tested by HTS; moreover, both viruses were found in association with other viruses and viroids. Interestingly, no obvious symptoms were observed in the two grapevines. Although infectivity of both viruses was ascertained by graft-transmission, only a Cabernet franc grapevine infected by GGDV developed symptoms post-grafting; further HTS analysis on this indicator plant reveals the presence of GRSPaV, GYSVd-1, and HSVd. Therefore, it was not possible to ascertain whether GGDV is associated with symptoms and additional studies on its pathogenicity are needed, likewise GMRV. An initial survey using several accessions of grapevine located in three different collections in California resulted in the identification of two and one plants infected by GGDV and GMRV, respectively; like the original sources of the viruses , these grapevines were symptomless.
A more extensive survey, including other grapevine-growing regions in California and the USA, is necessary to determine the real distribution of these novel viruses. In that sense, the detection method developed in this study could be useful for virus testing and certification programs. Finally, during the review process of this manuscript, two novel mycoviruses related to coguviruses and rubodviruses were reported, which extends the host range of phenui-like viruses.Fetal tumors are rare. Autopsy evaluation of stillborn fetuses has revealed a 0.5% rate of fetal tumors. Of liveborn children, prenatally diagnosed masses are most commonly lymphatic malformations and sacrococcygeal teratomas. Cervical teratomas, although accounting for only 3% of teratomas diagnosed in the neonatal period, can cause airway compromise and hydrops, and may be managed with ex-utero intrapartum treatment . Fetal renal tumors are less common, occurring in 7 of 100,000 live births, and there have been reports of fetal neuroblastoma as well. Fetal tumors with associated hydrops portend a particularly poor prognosis, with survival rates below 20%. Early prenatal diagnosis is essential for identifying patients who may benefit from fetal, rather than postnatal intervention, as is the case for certain teratomas. However, in cases where fetal intervention is unlikely to improve survival, knowledge of the wide differential diagnosis of a fetal tumor can significantly improve education and counseling for families.We report a case of a fetus diagnosed with a large renal mass with diffuse metastatic lesions and hydrops. A 34-year-old G5P2002 woman who presented to labor and delivery at 30 weeks and 4 days gestation with several days of abdominal pain and tightness. She had been referred for an ultrasound by her midwife after measuring larger than dates. The ultrasound was concerning for a fetal mass and polyhydramnios, and she was referred to Labor & Delivery for evaluation. Repeat ultrasound at our institution showed fetal hydrops with scalp edema, pericardial and pleural effusions, and a solid 10.4 × 8.2 cm mass with vascular flow extending from the right cheek into the right chest . There was evidence of polyhydramnios with an amniotic fluid index of 27.4 cm. The fetal stomach and airway were not visualized, raising concern for obstruction by the mass. Fetal magnetic resonance imaging confirmed a large 9.8× 8.9 × 8.4 cm soft tissue mass involving the right lateral neck, right axilla, right upper extremity, and right chest wall , with notable compression of the airway. Multiple additional small subcutaneous nodules were identified throughout the fetal torso and extremities, including a 1.8 × 2.8 cm lesion on the left thigh, a 2.7 × 2.5 cm lesion on the right cheek, and a 2.9 × 2.1 cm lesion on the right buttock. Hydrops was confirmed. A fetal echocardiogram was done which showed normal cardiac anatomy, normal biventricular systolic function, diffuse skin edema, bilateral pleural effusions, and a trivial pericardial effusion. The combined cardiac index was normal at 430 ml/min/kg. The differential diagnosis for this large soft tissue tumor presenting in a fetus was broad . Initially, there was concern primarily for a cervical teratoma or lymphatic malformation causing airway impingement and hydrops, and consideration was given to in utero resection to alleviate the hydrops. Ex-utero intrapartum treatment was also a potential management option. The findings of widely disseminated lesions on MRI, however, indicated that the fetus likely did not have a cervical teratoma or lymphangioma amenable to surgical resection. The multiplicity of the lesions raised concern for widely metastatic neoplasm or multiple vascular malformations. Although the fetus was not in imminent distress, the findings of fetal hydrops portended an extremely poor prognosis.
In addition, the rapidly accumulating polyhydramnios was physically disabling for the mother. Given the severity of these findings,gutter berries extensive multidisciplinary discussions were held between the patient, maternal fetal medicine, and the fetal surgery teams. There was no identifiable fetal or postnatal intervention for the fetus, and given the high likelihood of morbidity and fetal or neonatal death, it was decided to proceed with elective termination via intra-fetal cardiac potassium chloride injection followed by induction of labor to avoid the maternal morbidity of a Cesarean section. On hospital day 3, the fetus was delivered vaginally. Immediately notable were innumerable subcutaneous masses . On autopsy, the primary tumor was found to arise from the right kidney with extensive subcutaneous and internal metastatic disease. The largest metastatic focus was the originally identified tumor on the right chest, extending to the right back, measuring 10.5 cm in largest dimension. Additional metastatic subcutaneous disease was identified on the face, extremities, and abdominal wall . Microscopic examination revealed sheets of tumor cells invading the soft tissue, muscle, lymph nodes, right kidney, adrenal glands, thymus, heart, and liver. Tumor cells demonstrated epithelioid to spindle cell morphology in a loose fibrous stroma arranged in sheets and scattered nests. There were variable amounts of eosinophilic cytoplasm, round to oval nuclei, and prominent nucleoli. Additionally, rhabdoid cells were present with abundant eosinophilic cytoplasm, eccentric nuclei, and scattered intracytoplasmic inclusions. Intravascular and perineural tumor was noted in multiple sections. Immunohistochemistry revealed near diffuse positivity for cytokeratin , diffuse positivity for vimentin, focal CD34 staining, retained SMARCA4 and SMARCB1 . However, within the tumor cells there was focal loss of SMARCB1/ INI-1. Of note, WT1 had patchy positivity in the cytoplasm but was not found in the nucleus. Staining for synaptophysin, CD99, HMB45, myogenin, MYOD1, SMA, desmin, SALL4, Glypican-3, and PHOX2B were negative. The results of immunohistochemical analysis were consistent with the diagnosis of malignant primitive epithelioid sarcoma with features of malignant rhabdoid tumor. This is the first report of a fetal diagnosis of malignant primitive epithelioid sarcoma with features of malignant rhabdoid tumor in the literature. Additionally, retention of SMARCB1/ INI-1 expression is exceedingly rare in epithelioid sarcoma. Congenital malignancies are extremely uncommon, affecting fewer than 13 per 100,000 live births, and the most prevalent etiologies include teratomas, neuroblastoma, soft tissue tumors, or leukemia. Epithelioid sarcoma is a rare malignant neoplasm of mesenchymal origin most commonly seen in young adults and occasionally young children. It is most often slow-growing, painless, and difficult to diagnose given its ambiguous nature. Histologically, it demonstrates epithelioid morphology with deletion of SMARCB1/INI-1. SMARCB1/INI-1 is a tumor suppressor gene. Its native function is poorly understood, although it is known to be a member of a family of genes encoding chromatin-remodeling complex. Loss of SMARCB1/INI-1 expression is seen in the majority of epithelioid sarcomas and the vast majority of rhabdoid tumors. In one series of rhabdoid tumors, only 16% had retained expression of SMARCB1/INI-1. Another series of two siblings with classic rhabdoid tumor also retained expression of SMARCB1/INI-1, suggesting that rhabdoid tumor may arise by a separate mutational locus. One additional case of epithelioid sarcoma with retained SMARCB1/INI-1 expression has been reported in a 15-month old infant presenting with an isolated heel mass. Malignant rhabdoid tumor is a highly aggressive subtype of sarcoma. It is most commonly seen in young children and originates in the kidneys, central nervous system , or soft tissue, but has been previously reported in fetal and neonatal patients. When diagnosed in utero, the mean gestational age is around 33 weeks. Rhabdoid tumor is identified histologically by the presence of rhabdoid tumor cells with round vesicular nuclei, prominent nucleoli, and eosinophilic inclusions within the cytoplasm, and usually with deletion of the SMARCB1/INI-1 gene on chromosome 22q11. They exhibit positivity for cytokeratins AE1/AE3, vimentin, and epithelial membrane antigen , although there is some variability. In a 40-year review of the literature, 12 fetal cases and 60 neonatal cases were identifie. Most were of renal origin without CNS involvement, one-third were extrarenal tumors not involving the CNS, and 16.7% were of CNS origin. Overall survival was 9.7%. More than half had distant metastasis at diagnosis, and all patients with metastatic disease at diagnosis died. Multiple subcutaneous nodules resembling the “blueberry muffin” presentation of neuroblastoma were present in this case as well as several others. Placental metastases may also be seen, but all reports describe placental metastases of the tumor without evidence of maternal disease. This tumor is aggressive and rapidly fatal with survival ranging from a few minutes to 3 months in one case series of 8 fetuses and neonates with malignant rhabdoid tumor. Treatment options are extremely limited.