First detection of Omicron variant BA.4.1 lineage in dogs, Chile.

SARS-CoV-2's rapid global spread caused the declaration of COVID-19 as a pandemic in March 2020. Alongside humans, domestic dogs and cats are also susceptible to infection. However, limited reports on pet infections in Chile prompted a comprehensive study to address this knowledge gap. Between March 2021 and March 2023, the study assessed 65 pets (26 dogs and 39 cats) from 33 COVID-19+ households alongside 700 nasal swabs from animals in households with unknown COVID-19 status. Using RT-PCR, nasal, fecal, and environmental samples were analyzed for the virus. In COVID-19+ households, 6.06% tested positive for SARS-CoV-2, belonging to 3 dogs, indicating human-to-pet transmission. Pets from households with unknown COVID-19 status tested negative for the virus. We obtained 2 SARS-CoV-2 genomes from animals, that belonged to Omicron BA.4.1 variant, marking the first report of pets infected with this lineage globally. Phylogenetic analysis showed these sequences clustered with human sequences collected in Chile during the same period when the BA.4.1 variant was prevalent in the country. The prevalence of SARS-CoV-2 in Chilean pets was relatively low, likely due to the country's high human vaccination rate. Our study highlights the importance of upholding and strengthening human vaccination strategies to mitigate the risk of interspecies transmission. It underscores the critical role of the One Health approach in addressing emerging zoonotic diseases, calling for further research on infection dynamics and risk factors for a comprehensive understanding.

First report of porcine respirovirus 1 in South America.

Porcine respirovirus 1 (PRV1) is an emerging virus in pigs that has been previously described in the USA and China. There are no reports of its presence in the rest of the world. The objective of this study was to determine the occurrence of PRV1 in Chile and to determine its phylogeny. Thus, we collected samples (oral fluids, nasal swabs, and lungs) from a swine influenza A virus (IAV) surveillance program, most of which belonged to pigs with respiratory disease. The samples were analyzed by RT-PCR, and the viral sequencing was obtained using RNA whole-genome sequencing approach. Maximum likelihood phylogeny was constructed with the available references. Thirty-one of 164 samples (18.9 %) were RT-PCR positive for PRV1: 62.5 % oral fluids, 19.0 % nasal swabs, and 8.6 % lungs. All 6 farms in this study had at least one positive sample, with 6-40 % of positive results per farm, which suggests that PRV1 is disseminated in Chilean swine farms. Twenty-one of 31 (677%) PRV1-positive samples were also positive for IAV, so the role of PRV1 as secondary pathogen in respiratory disease needs to be further evaluated. Near to complete genome of two PRV1s were obtained from two farms. The phylogenies, in general, showed low bootstrap support, except the concatenated genome and the L gene trees which showed clustering of the Chilean PRV1 with Asian sequences, suggesting a close genetic relationship. This is the first report of PRV1 in the Southern Hemisphere. Further studies are necessary to determine the genetic diversity of this virus in Chile.

Preferential sequestration in vitro of BCR/ABL negative hematopoietic progenitor cells among cytokine nonresponsive CML marrow CD34+ cells.

It is believed that long-term cultures of CML marrow cells favor the outgrowth of BCR/ABL negative hematopoietic progenitor cells (HPC) and that this phenomenon may be enhanced with negative hematopoietic regulators which can maintain primitive HPC in a quiescent state. Proliferation of CML marrow CD34+ cells in primary short-term cultures, maintained in the presence or absence of macrophage inhibitory protein-1 alpha (MIP-1 alpha), was tracked with the membrane dye PKH2. After 7 to 10 days it was possible to distinguish between cytokine responsive (CR) CD34+ cells (cells which had divided thus becoming PKH2dim) and cytokine nonresponsive (CNR) CD34+ cells (cells which had not divided and had therefore remained PKH2bright). CR and CNR CD34+ cells were isolated by flow cytometric cell sorting, seeded in secondary long-term cultures, and their progeny cells assayed weekly for their clonogenic progenitor cell content and expression of BCR/ABL by reverse transcriptase polymerase chain reaction (RT-PCR). Whereas CNR cells isolated from control primary cultures (control/CNR) sustained in vitro hematopoiesis, similar cells from cultures treated with MIP-1 alpha (MIP-1 alpha/CNR) supported a higher and, in some patients, a more extended production of clonogenic HPC, indicating that MIP-1 alpha was able to maintain primitive HPC in a quiescent state. Predominance of BCR/ABL negative progenitors in vitro was more evident in secondary cultures initiated with CNR cells than in those initiated with CR cells, especially those established with MIP-1 alpha/CNR cells. Of interest is the observed decline in the percentage of BCR/ABL+ progenitors in these cultures with time. Whereas up to 100% of progenitors were BCR/ABL+ on day 0, by day 14, only 46% of progenitors in MIP-1 alpha/CNR secondary cultures were BCR/ABL+ and by day 28 and beyond, the percentage of BCR/ABL+ progenitors dropped to below 20%. These results suggest that the quiescent nature of normal HPC present in CML marrow may favor their identification via cell tracking and, subsequently, their isolation from the more actively cycling leukemic cells. These studies also confirm the feasibility of employing negative hematopoietic regulators to augment the sequestration of normal HPC among the cytokine nonresponsive fraction of CD34+ cells, an approach that may be clinically feasible for autotransplantation.

Isolation of primitive human bone marrow hematopoietic progenitor cells using Hoechst 33342 and Rhodamine 123.

In addition to possessing multilineage differentiation and self-renewal capabilities, pluripotent hematopoietic stem cells are believed to be mitotically quiescent and metabolically inactive. Fractions of human bone marrow (BM) CD34+ cells can be further enriched for primitive hematopoietic progenitor cells (HPC) by using a number of cell-surface markers. All of these fractions, however, contain cells that are still heterogeneous as far as their metabolic and mitotic activities are concerned. We therefore used Hoechst 33342 (Hst) to identify quiescent cells and Rhodamine 123 (Rh123) to identify metabolically inactive cells. CD34+HstdimRh123dim (CD34+d/d) and CD34+HstbrightRh123bright (CD34+b/b) cells were isolated by flow cytometry to examine the hematopoietic functions of mitotically and metabolically homogeneous progenitors. Cell-cycle status, progenitor cell content, maintenance of in vitro hematopoiesis, and long-term hematopoietic culture-initiating cell (LTHC-IC) content of CD34+d/d and CD34+b/b cells were compared with CD34+HLA-DR- cells, a well-defined phenotype of primitive HPC. Whereas 99.2 +/- 0.5% of freshly isolated CD34+d/d cells were in G0/G1 phase of the cell cycle, only 74.4 +/- 11.5% of CD34+b/b and 75.6 +/- 1.1% of CD34+HLA-DR- cells were in G0/G1. The number of multipotential progenitors (colony-forming units-granulocyte/erythroid/ macrophage/megakaryocyte [CFU-GEMM]) detected in CD34+d/d cells was twice that observed in CD34+HLA-DR- cells and eight times that in CD34+b/b cells. In stromal cell-free long-term cultures maintained for 10 weeks, production of assayable progenitors in cultures initiated with CD34+d/d cells exceeded that detected in CD34+HLA-DR- cultures by more than three-fold. Only in CD34+d/d cultures were high proliferative potential colony-forming cell (HPP-CFC)-derived colonies detected over a period of 6 weeks. Limiting dilution analysis revealed that the frequency of LTHC-IC was highest among CD34+d/d cells (7.2 +/- 3.3%), followed by a frequency of 4.5 +/- 4.8% for CD34+HLA-DR- cells and 2.2 +/- 3.5% for CD34+b/b cells. The primitive nature of HPC identified by CD34, Hst, and Rh123 was confirmed by the ability of as few as 200 murine marrow cells isolated by this technique to radioprotect and fully reconstitute lethally irradiated recipients. These results indicate that Hst and Rh123 staining can be used in combination with CD34 immunofluorescence to isolate a quiescent subpopulation of human primitive hematopoietic progenitor cells. Cells isolated by this technique appear to have functional properties associated with stem cells, suggesting that they may be ideal candidates for studies requiring primitive HPC, such as ex vivo expansion and somatic gene therapy.

Epitope mapping and immunoneutralization of recombinant human stem-cell factor.

The epitope regions of three anti-[stem-cell factor (SCF)]g have been mapped by characterization of immunoreactivities against truncated forms of SCF in immunoblots and against synthetic peptides in solution-phase competition ELISA. Two of the antibodies, mAb 7H6 and mAb 8H7A, were raised against Escherichia coli-derived human SCF-(1-164) while the third, polyclonal antibody (pAb) 1337, was raised against a peptide corresponding to residues 3-31 of human SCF. The epitopes of mAbs 7H6 and 8H7A have been mapped to residues 61-95 and 95-110, respectively. The epitope of pAb 1337 has been mapped to residues 21-31. The ability of the anti-SCF Ig to recognize E. coli-derived human SCF presented in various formats, i.e. partially denatured (fixed in standard ELISA or on a western blot) or native (in solution), was studied, mAb 7H6 recognized its epitope in partially denatured or native SCF with equally high affinity, while mAb 8H7A and pAb 1337 recognized their epitopes only when SCF was at least partially denatured, mAb 7H6 was found to neutralize in vitro SCF-mediated cell proliferation and SCF binding to its receptor, when present in equimolar concentrations relative to the ligand, suggesting that the epitope region is functionally significant. Evidence that the mAb 7H6 epitope is represented by discontinuous regions (residues within sequences 61-65 and 91-95 are critically involved) is presented. The observation that the mAb 7H6 epitope is discontinuous has implications for the structure of SCF.

Long-term hematopoietic culture-initiating cells are more abundant in mobilized peripheral blood grafts than in bone marrow but have a more limited ex vivo expansion potential.

Mobilized peripheral blood hematopoietic progenitor cells obtained from cancer patients treated with high-dose cyclophosphamide (7g/m2) followed by G-CSF, GM-CSF, IL-3, PIXY321, or combinations of these cytokines have been successfully used for autologous stem cell transplantation. We investigated the ability of hematopoietic progenitor cells (HPC) derived from mobilized peripheral blood (PB) to undergo ex vivo expansion in short term cultures by enumerating numbers of de novo generated CD34+ cells, assayable progenitor cells, and the frequency of long-term hematopoietic culture-initiating cells (LTHC-IC). These parameters were examined in CD34+ cells generated in culture through the use of cell tracking with the membrane dye PKH2. Fresh isolated mobilized CD34+ cells contained 0.49 +/- 0.36% LTHC-IC. However, due to the high number of total CD34+ cells in mobilized PB, the absolute number of LTHC-IC was higher than that contained in a bone marrow (BM) harvest. Mobilized CD34+ cells were stained with PKH2 and incubated with SCF, IL-3, and IL-6. After 5 to 6 days, numbers of total CD34+ cells and clonogenic progenitors increased 1.4- and 2.2-fold, respectively. Numbers of total progenitors continued to increase such that 10 to 12 days after the initiation of cultures a 6.4-fold increase was demonstrable. However, between days 5 and 7 of culture, the frequency of LTHC-IC in CD34+PKH2bright cells (cells which did not divide) was less than 50% of that determined for fresh cells, while the frequency among CD34+PKH2dim cells (cells that had divided) was very low or undetectable. However, moderately higher frequencies of LTHC-IC were detected following expansion for 48 hours only. In similar assays, both BM and cord blood cells were capable of generating LTHC-IC in CD34+PKH2dim cells but not to expand the overall number of these progenitors. These observations suggest that although mobilized PB CD34+ cells contain large numbers of LTHC-IC, these cells might not be capable of further ex vivo expansion and generation of additional LTHC-IC in vitro. Furthermore, these data indicate that mobilized PB CD34+ cells may have undergone maximal "in vivo expansion" such that additional ex vivo expansion of primitive progenitor cells may not be possible.

Antimicrobial response of a T cell-deficient host to cytokine therapy: effect of interferon-gamma in experimental visceral leishmaniasis in nude mice.

To determine if interferon (IFN)-gamma can enhance intracellular antimicrobial defense in a T cell-deficient host, nude BALB/c mice were infected with Leishmania donovani and treated with IFN-gamma. IFN-gamma induced killing of L. donovani in livers of euthymic mice but had no effect in nude mice despite activating peritoneal macrophages in vivo. Transfer of CD4+ or CD8+ T cells permitted nude mice to respond to IFN-gamma; treatment with T cell-regulated antileishmanial cytokines (interleukin-2, granulocyte-macrophage colony-stimulating factor, or tumor necrosis factor-alpha) could not substitute for T cells. NK cells played no apparent role. In reconstituted nude mice, the antileishmanial effect of IFN-gamma correlated with markedly enhanced mononuclear cell recruitment to infected liver foci. Thus, although IFN-gamma activates macrophages in the absence of host T cells, a T cell mechanism is required for antileishmanial activity in tissue. Provided one T cell subset is adequately preserved, IFN-gamma may prove useful in intracellular infections in the T cell-deficient host.

Recovery of a cell surface fetal antigen from circulating immune complexes of melanoma patients.

A well-characterized 69.5 x 10(3) dalton glycoprotein fetal antigen (FA), isolated from the spent culture medium of a melanoma cell line, UCLA-SO-14 (M14), was utilized to characterize the antigen component of circulating immune complexes (CIC) from melanoma patients. Ten serum samples from five patients with stage II melanoma at 1 and 4 months prior to the clinical detection of recurrent disease were selected for study. The CIC were dissociated with low pH and ultrafiltered through a 100 x 10(3) dalton exclusion limit membrane. The low pH treatment resulted in an increase in antibody titer in eight of ten serum samples. The antibody activity in membrane immunofluorescence was quantitatively inhibited by the filtered antigen fraction and purified FA, suggesting the presence of anti-FA antibodies in the treated serum, which possibly were complexed with FA in the untreated sample. As determined by competitive inhibition in an enzyme-linked immunosorbent assay, the filtrate (antigen fraction) contained an antigen that was immunologically similar to FA. These results clearly demonstrate that FA, expressed on the cell surface of melanoma cells, is present in CIC of selected melanoma patients.