RESUMEN
The threat posed by severe congenital abnormalities related to Zika virus (ZKV) infection during pregnancy has turned development of a ZKV vaccine into an emergency. Recent work suggests that the cytotoxic T lymphocyte (CTL) response to infection is an important defense mechanism in response to ZKV. Here, we develop the rationale and strategy for a new approach to developing cytotoxic T lymphocyte (CTL) vaccines for ZKV flavivirus infection. The proposed approach is based on recent studies using a protein structure computer model for HIV epitope selection designed to select epitopes for CTL attack optimized for viruses that exhibit antigenic drift. Because naturally processed and presented human ZKV T cell epitopes have not yet been described, we identified predicted class I peptide sequences on ZKV matching previously identified DNV (Dengue) class I epitopes and by using a Major Histocompatibility Complex (MHC) binding prediction tool. A subset of those met the criteria for optimal CD8+ attack based on physical chemistry parameters determined by analysis of the ZKV protein structure encoded in open source Protein Data File (PDB) format files. We also identified candidate ZKV epitopes predicted to bind promiscuously to multiple HLA class II molecules that could provide help to the CTL responses. This work suggests that a CTL vaccine for ZKV may be possible even if ZKV exhibits significant antigenic drift. We have previously described a microsphere-based CTL vaccine platform capable of eliciting an immune response for class I epitopes in mice and are currently working toward in vivo testing of class I and class II epitope delivery directed against ZKV epitopes using the same microsphere-based vaccine.
RESUMEN
The variation in hair coat and skin histology traits of Criollo Limonero cattle was analyzed using 213 Criollo Limonero females. Skin biopsies were obtained from slick-haired (N=16) and normal-haired (N=14) animals. Measured traits included hair length (HL), color coat (CC), number of hair follicles per square centimeter (NHF), sweat glands per square centimeter (NSG), sweat glands size (SGS), sebaceous glands per square centimeter (NSBG), blood vessels per square centimeter (NBV), and thickness of epidermis (TE). Hair length differed (P<0.001) between slick- and normal-haired animals (4.9 ± 0.12 vs 10.9 ± 0.20, respectively). Differences (P<0.01) in CC (Bayo = 144/67.6% vs Red = 69/32.4%) and HL (slick-haired = 199/93.4% vs normal-haired = 14/6.5%) were found. Distribution of slick- and normal-haired animals differed (P<0.01) between bayo-coated and red-coated (139/62.2% vs 9/4.2%; respectively). Most (P<0.05) red-coated animals belonged to a single family. No differences (P>0.05) were found between slick-haired and normal-haired animals in NHF (637 ± 164 vs 587 ± 144, respectively), NSG (556 ± 134 vs 481 ± 118, respectively), NSBG (408 ± 87 vs 366 ± 77, respectively), NBV (1628 ± 393 vs 1541 ± 346, respectively), and TE (1.24 ± 0.14 vs 1.32 ± 0.12, respectively). However, SGS was greater (P<0.01) in slick-haired than normal-haired animals. In conclusion, Criollo Limonero cattle are predominantly bayo-coated, slick-haired, with a reduced number of hair follicles relative to Zebu cattle, sweat and sebaceous glands in proportion to hair follicle numbers, and with a high blood flow irrigating the skin. There is a sub-group of red-coated animals with yellow or cream skin, thicker epidermis, and with a higher frequency of normal-haired animals. It appears that the slick hair gene has been favored by natural selection in this breed.
Asunto(s)
Adaptación Fisiológica/fisiología , Bovinos/fisiología , Epidermis/fisiología , Cabello/fisiología , Animales , Biopsia/veterinaria , Epidermis/ultraestructura , Femenino , Cabello/ultraestructura , Glándulas Sebáceas/fisiología , Glándulas Sebáceas/ultraestructura , Glándulas Sudoríparas/fisiología , Glándulas Sudoríparas/ultraestructuraRESUMEN
Records from ½ Criollo Limonero + ½ Holstein (F1) and backcrosses, ¾ Criollo Limonero + » Holstein (R) handled in a Venezuelan humid tropical forest zone were analyzed to compare their productive and reproductive performance. The analyzed variables were: age at first calving (AFC), interval from calving to conception (ICC), calving interval (CI), services per conception (SC), gestation length (GL), calf birth weight (CBW), lactation length (LL), milk at 90 d (M90), total milk yield (TMY), and milk adjusted to 305 d (M305). No statistical differences (P > 0.05) were found between F1 and R for AFC (3.4 ± 0.1 vs 3.2 ± 0.1 years), SC (1.6 ± 0.1 vs 1.7 ± 0.1), GL (both 280d), CBW (both 34 ± 0.6 kg), M90 (919 ± 99 vs 813 ± 105 kg), TMY (2093 ± 176 vs 1964 ± 176 kg) or for M305 (2424 ± 146 vs 2430 ± 151kg), respectively. However, the F1 cows had ICC (258 ± 18 vs 173 ± 22 d; P < 0.004) and CI (577 ± 21 vs 474 ± 25 d; P < 0.001) longer than R, respectively. Year of birth affected (P < 0.05) to AFC, (P < 0.03) to ICC, and (P < 0.01) to CI, M90, TMY, and M305. Environmental effects were found for GL, M90, TMY, M305, and LL. Although no differences between genotypes were found for milk yield, R cows had better reproductive performance than the F1 cows.
Con el objetivo de comparar el comportamiento productivo y reproductivo, se analizaron los registros de vacas ½ Criollo Limonero + ½ Holstein (F1) y retrocruces ¾ Criollo Limonero + » Holstein (R) manejadas en una zona de bosque húmedo tropical venezolana. Se analizaron las variables edad al primer parto (AFC), intervalo parto-concepción (ICC), intervalo entre partos (CI), servicios por concepción (SC), duración de la gestación (GL), peso al nacer de los becerros (CBW), longitud de lactancia (LL), producción de leche total (TMY), a los 90 días (M90) y ajustada a 305 días (M305). No se hallaron diferencias significativas (P > 0,05) entre F1 y R para AFC (3,4 ± 0,1 vs 3,2 ± 0,1 años), SC (1,6 ± 0,1 vs 1,7 ± 0,1), GL (ambos 280d), CBW (ambos 34 ± 0,6 kg), M90 (919 ± 99 vs 813 ± 105 kg), TMY (2093 ± 176 vs 1964 ± 176 kg) ni M305 (2424 ± 146 vs 2430 ± 151kg), respectivamente. No obstante, las F1 tuvieron ICC (258 ± 18 vs 173 ± 22 d; P < 0,004) e CI (577 ± 21 vs 474 ± 25 d; P < 0,001) más prolongados que las R, respectivamente. El año de nacimiento afectó (P < 0,05) a AFC, (P < 0,03) ICC, y (P < 0,01) a CI, M90, TMY, y M305. Se hallaron efectos climáticos sobre GL, M90, TMY, M305, y LL. Aunque sin diferencias en producción de leche, las R tuvieron mejor desempeño reproductivo.