RESUMEN
BACKGROUND: Exanthems are a common reason for visits to the pediatric emergency department. However, epidemiological data in the post-measles-rubella vaccine era is limited. OBJECTIVE: We sought to determine the recent causes of exanthems in children younger than 6 years old in the pediatric emergency department. METHODS: A prospective single-center study was conducted in Japan from August 2019 to March 2020. Children younger than 6 years old with exanthems were enrolled. Exanthems were classified into 7 morphological patterns. Varicella, herpes zoster, impetigo, urticaria and Kawasaki disease were diagnosed clinically. Nasopharyngeal swab specimens were collected from patients with nonspecific exanthems and evaluated by polymerase chain reaction (PCR) assays capable of detecting 24 pathogens. The final diagnosis was made by discussion of 3 physicians based on clinical course and microbiology. RESULTS: There were 9705 pediatric visits, of which 296 (3%) had exanthems and were younger than 6 years old. Clinical diagnosis was possible for 160 (54%), including urticaria in 110 (37%), Kawasaki disease in 29 (10%), impetigo in 10 (3%), varicella or herpes zoster in 7 (2%) and group A Streptococcus in 4 (1%). Among the remaining 136 (46%) children, 75 (25%) underwent testing by PCR. One or more pathogens were detected in 49 (65%), specifically enterovirus in 14 (19%), cytomegalovirus in 13 (17%), human herpesvirus type-6 in 12 (16%), adenovirus in 11 (15%) and human herpesvirus type-7 in 8 (11%). Final infectious disease diagnoses were roseola infantum in 11 (15%), enterovirus in 9 (12%), adenovirus in 6 (8%), mixed virus infection in 5 (7%), group A Streptococcus in 3 (4%), parechovirus-A in 3 (4%) and influenza in 3 (4%). CONCLUSIONS: The most common causes of pediatric exanthems were noninfectious diseases and viral exanthema. PCR assay was instrumental for etiological diagnosis of nonspecific exanthems.
RESUMEN
Correct formation of the cell division axis requires the initial precise orientation of the mitotic spindle. Proper spindle orientation depends on centrosome maturation, and Polo-like kinase 1 (PLK1) is known to play a crucial role in this process. However, the molecular mechanisms that function downstream of PLK1 are not well understood. Here we show that LRRK1 is a PLK1 substrate that is phosphorylated on Ser 1790. PLK1 phosphorylation is required for CDK1-mediated activation of LRRK1 at the centrosomes, and this in turn regulates mitotic spindle orientation by nucleating the growth of astral microtubules from the centrosomes. Interestingly, LRRK1 in turn phosphorylates CDK5RAP2(Cep215), a human homologue of Drosophila Centrosomin (Cnn), in its γ-tubulin-binding motif, thus promoting the interaction of CDK5RAP2 with γ-tubulin. LRRK1 phosphorylation of CDK5RAP2 Ser 140 is necessary for CDK5RAP2-dependent microtubule nucleation. Thus, our findings provide evidence that LRRK1 regulates mitotic spindle orientation downstream of PLK1 through CDK5RAP2-dependent centrosome maturation.
