An mTurq2-Col4a1 mouse model allows for live visualization of mammalian basement membrane development.

Basement membranes (BMs) are specialized sheets of extracellular matrix that underlie epithelial and endothelial tissues. BMs regulate the traffic of cells and molecules between compartments, and participate in signaling, cell migration, and organogenesis. The dynamics of mammalian BMs, however, are poorly understood, largely due to a lack of models in which core BM components are endogenously labeled. Here, we describe the mTurquoise2-Col4a1 mouse in which we fluorescently tag collagen IV, the main component of BMs. Using an innovative planar-sagittal live imaging technique to visualize the BM of developing skin, we directly observe BM deformation during hair follicle budding and basal progenitor cell divisions. The BM's inherent pliability enables dividing cells to remain attached to and deform the BM, rather than lose adhesion as generally thought. Using FRAP, we show BM collagen IV is extremely stable, even during periods of rapid epidermal growth. These findings demonstrate the utility of the mTurq2-Col4a1 mouse to shed new light on mammalian BM developmental dynamics.

A Window into Mammalian Basement Membrane Development: Insights from the mTurq2-Col4a1 Mouse Model.

Basement membranes (BMs) are specialized sheets of extracellular matrix that underlie epithelial and endothelial tissues. BMs regulate traffic of cells and molecules between compartments, and participate in signaling, cell migration and organogenesis. The dynamics of mammalian BMs, however, are poorly understood, largely due to a lack of models in which core BM components are endogenously labelled. Here, we describe the mTurquoise2-Col4a1 mouse, in which we fluorescently tag collagen IV, the main component of BMs. Using an innovative Planar-Sagittal live imaging technique to visualize the BM of developing skin, we directly observe BM deformation during hair follicle budding and basal progenitor cell divisions. The BM's inherent pliability enables dividing cells to remain attached to and deform the BM, rather than lose adhesion as generally thought. Using FRAP, we show BM collagen IV is extremely stable, even during periods of rapid epidermal growth. These findings demonstrate the utility of the mTurq2-Col4a1 mouse to shed new light on mammalian BM developmental dynamics.

Coexistence of persistent fetal vasculature and retinoblastoma in the same eye.

BACKGROUND: As retinoblastoma (RB) is the most frequent primary intraocular malignant tumor in childhood, it should be the main pathology to rule out in pediatric patients with leukocoria. Persistence of fetal vasculature (PFV) is within the differential diagnosis of leukocoria, a vitreous disorder arising from a defect in the involution of the hyaloid vasculature in the embryonic stage, which affects normal ocular development and commonly produces associated microophthalmia. An early diagnosis and timely treatment are crucial for a better prognosis and life expectancy of the child. CASE REPORT: We present a case of retinoblastoma and coexisting with PFV: a 2-years-and 11-months-old male with no red reflex, and vasculature and yellowish-white membrane behind the lens of the right eye. B-mode ultrasound with disorganization of the vitreous cavity with high reflectivity echoes suggestive of calcification. On examination we found an enlarged eyeball, rubeosis iridis, posterior vasculature, intraocular pressure 28 mmHg. Computed tomography with heterogeneous intraocular mass with hyperdense regions. With a diagnosis of probable retinoblastoma, enucleation was performed. Histopathology reported moderately differentiated retinoblastoma coexisting with PFV. CONCLUSIONS: The finding of these two diagnoses in the same eye is very rare due to the different pathophysiology.

INTRODUCCIÓN: El retinoblastoma (RB) es el tumor maligno primario intraocular más frecuente en la infancia y debe ser la principal patología a descartar en los pacientes pediátricos con leucocoria. La persistencia de la vasculatura fetal (PVF) está dentro del diagnóstico diferencial de la leucocoria, un trastorno del vítreo que surge de un defecto en la involución de la vasculatura hialoidea en la etapa embrionaria que afecta al desarrollo ocular normal y comúnmente produce microoftalmia asociada. El diagnóstico temprano y tratamiento oportuno son cruciales para un buen pronóstico y mejor esperanza de vida del infante. CASO CLÍNICO: Presentamos un caso de coexistencia de retinoblastoma y PVF: paciente de sexo masculino de 2 años y 11 meses sin reflejo rojo y vasculatura y membrana blanco-amarillenta detrás del cristalino en el ojo derecho. La ecografía en modo B con desorganización de la cavidad vítrea con ecos de alta reflectividad sugestivos de calcificación. A la exploración se observó globo ocular agrandado, rubeosis iridis, vasculatura posterior, presión intraocular 28 mmHg. Tomografía computarizada con masa intraocular heterogénea con regiones hiperdensas. Con diagnóstico de probable retinoblastoma, se realizó la enucleación. La histopatología informó el hallazgo de retinoblastoma moderadamente diferenciado coexistente con PVF. CONCLUSIONES: El hallazgo de estos dos diagnósticos en un mismo ojo es muy poco frecuente debido a la diferente fisiopatología.

Coexistencia de vasculatura fetal persistente y retinoblastoma en el mismo ojo / Coexistence of persistent fetal vasculature and retinoblastoma in the same eye

Resumen Introducción: El retinoblastoma (RB) es el tumor maligno primario intraocular más frecuente en la infancia y debe ser la principal patología a descartar en los pacientes pediátricos con leucocoria. La persistencia de la vasculatura fetal (PVF) está dentro del diagnóstico diferencial de la leucocoria, un trastorno del vítreo que surge de un defecto en la involución de la vasculatura hialoidea en la etapa embrionaria que afecta al desarrollo ocular normal y comúnmente produce microoftalmia asociada. El diagnóstico temprano y tratamiento oportuno son cruciales para un buen pronóstico y mejor esperanza de vida del infante. Caso clínico: Presentamos un caso de coexistencia de retinoblastoma y PVF: paciente de sexo masculino de 2 años y 11 meses sin reflejo rojo y vasculatura y membrana blanco-amarillenta detrás del cristalino en el ojo derecho. La ecografía en modo B con desorganización de la cavidad vítrea con ecos de alta reflectividad sugestivos de calcificación. A la exploración se observó globo ocular agrandado, rubeosis iridis, vasculatura posterior, presión intraocular 28 mmHg. Tomografía computarizada con masa intraocular heterogénea con regiones hiperdensas. Con diagnóstico de probable retinoblastoma, se realizó la enucleación. La histopatología informó el hallazgo de retinoblastoma moderadamente diferenciado coexistente con PVF. Conclusiones: El hallazgo de estos dos diagnósticos en un mismo ojo es muy poco frecuente debido a la diferente fisiopatología.

Abstract Background: As retinoblastoma (RB) is the most frequent primary intraocular malignant tumor in childhood, it should be the main pathology to rule out in pediatric patients with leukocoria. Persistence of fetal vasculature (PFV) is within the differential diagnosis of leukocoria, a vitreous disorder arising from a defect in the involution of the hyaloid vasculature in the embryonic stage, which affects normal ocular development and commonly produces associated microophthalmia. An early diagnosis and timely treatment are crucial for a better prognosis and life expectancy of the child. Case report: We present a case of retinoblastoma and coexisting with PFV: a 2-years-and 11-months-old male with no red reflex, and vasculature and yellowish-white membrane behind the lens of the right eye. B-mode ultrasound with disorganization of the vitreous cavity with high reflectivity echoes suggestive of calcification. On examination we found an enlarged eyeball, rubeosis iridis, posterior vasculature, intraocular pressure 28 mmHg. Computed tomography with heterogeneous intraocular mass with hyperdense regions. With a diagnosis of probable retinoblastoma, enucleation was performed. Histopathology reported moderately differentiated retinoblastoma coexisting with PFV. Conclusions: The finding of these two diagnoses in the same eye is very rare due to the different pathophysiology.

Single Cell Multi-Omics Technology: Methodology and Application.

In the era of precision medicine, multi-omics approaches enable the integration of data from diverse omics platforms, providing multi-faceted insight into the interrelation of these omics layers on disease processes. Single cell sequencing technology can dissect the genotypic and phenotypic heterogeneity of bulk tissue and promises to deepen our understanding of the underlying mechanisms governing both health and disease. Through modification and combination of single cell assays available for transcriptome, genome, epigenome, and proteome profiling, single cell multi-omics approaches have been developed to simultaneously and comprehensively study not only the unique genotypic and phenotypic characteristics of single cells, but also the combined regulatory mechanisms evident only at single cell resolution. In this review, we summarize the state-of-the-art single cell multi-omics methods and discuss their applications, challenges, and future directions.