Teri Jo Mauch

Ubiquitous GFP expression in transgenic chickens using a lentiviral vector

We report the first ubiquitous green fluorescent protein expression in chicks using a lentiviral vector approach, with eGFP under the control of the phosphoglycerol kinase promoter. Several demonstrations of germline transmission in chicks have been reported previously, using markers that produce tissue-specific, but not ubiquitous, expression. Using embryos sired by a heterozygous male, we demonstrate germline transmission in the embryonic tissue that expresses eGFP uniformly, and that can be used in tissue transplants and processed by in situ hybridization and immunocytochemistry. Transgenic tissue is identifiable by both fluorescence microscopy and immunolabeling, resulting in a permanent marker identifying transgenic cells following processing of the tissue. Stable integration of the transgene has allowed breeding of homozygous males and females that will be used to produce transgenic embryos in 100% of eggs laid upon reaching sexual maturity. These results demonstrate that a transgenic approach in the chick model system is viable and useful even though a relatively long generation time is required. The transgenic chick model will benefit studies on embryonic development, as well as providing the pharmaceutical industry with an economical bioreactor.

FISHing for chick genes: Triple‐label whole‐mount fluorescence in situ hybridization detects simultaneous and overlapping gene expression in avian embryos

Multi‐color whole‐mount in situ hybridization is a powerful technique for comparing the spatial expression patterns of two or more genes in developing embryos. We have developed an amplified triple‐label whole‐mount fluorescence in situ hybridization (FISH) protocol that permits detection of three different mRNAs in a single embryo. Our protocol uses simultaneous in situ hybridization to haptenylated riboprobes, followed by sequential antibody detection using anti‐hapten antibodies conjugated to horseradish peroxidase, and the tyramide signal amplification (TSA) fluorescence detection system. Conventional fluorescence microscopy identifies areas of overlapping gene expression at the tissue level, whereas confocal fluorescence microscopy permits single‐cell resolution and differentiates specialized cell types within a given tissue. This protocol will provide researchers engaged in the use of FISH with a solid starting point for adapting their own in situ hybridization protocols, either alone or in combination with immunohistochemistry or green fluorescence protein colocalization. Developmental Dynamics 229:651–657, 2004.

Real-time PCR quantification of AT1 and AT2 angiotensin receptor mRNA expression in the developing rat kidney.

Background/Aims: Angiotensin II (Ang II) is an important growth factor in the fetal kidney. Molecular cloning and pharmacological studies have defined two major classes of Ang II receptors designated AT1 and AT2. Two AT1 isoforms, AT1A and AT1B, exist in rodents. AT1 promotes growth and proliferation and mediates many of the known physiological actions of Ang II. AT2 appears to antagonize AT1. Our goal was to measure their relative contributions to Ang II signaling in the developing kidney. Methods: We used real-time RT-PCR to quantify AT1A, AT1B, AT2 and the housekeeping gene EF1α mRNA in kidneys from embryonic (E) day 14–20 and postnatal (P) day 1–14 rats. Results: AT2 mRNA declined from 1.4 × 104 copies/106 copies EF1α on E14 to 4.2 × 103 copies/106 copies EF1α on P14. In contrast, total AT1 mRNA increased gradually from 2.0 × 103 copies/106 copies EF1α on E14 to 2.0 × 104 copies/106 copies EF1α on P14, with AT1A accounting for about 90% of total AT1 mRNA throughout nephrogenesis. Moreover, the ratio of AT2/(AT1A + AT1B) decreased in a log-linear fashion during maturation, from 6.7 on E14 to 0.2 on P14. Conclusion: The ratio of AT2 to AT1 gene expression modulates Ang II action in the developing kidney.

Frizzled-4 expression during chick kidney development.

Wnts have been implicated in metanephric kidney development. To determine whether Frizzleds, the genes that encode Wnt receptors, are present at early stages of nephrogenesis, we examined the expression of several recently identified Frizzled genes in the chick by in situ hybridization. Here we report the cloning and characterization of chick Frizzled-4 (cFz-4), which we found to be expressed in the developing chick kidney. cFz-4 was first expressed in the pronephros caudal to the third somite at Hamburger and Hamilton stage 10. Its expression increased with maturation, becoming restricted to the newly induced glomeruli and tubules in the mesonephros and metanephros. Within the metanephros, cFz-4 and Wnt-4 expression patterns were similar, whereas Wnt-11 was expressed solely in the tips of the branching ureteric bud. cFz-4 expression was compared with that of known kidney markers. It preceded that of Lmx-1, but was similarly restricted to developing glomeruli and tubules. In contrast, Pax-2 expression and Lim 1/2 antibody labeling occurred in intermediate mesoderm caudal to the fifth somite in the early pronephros, and each persisted in both the tubules and nephric ducts throughout further development.

Acute Renal Failure: Unusual complication of Epstein-Barr Virus—Induced Infectious Mononucleosis

A 17-year-old boy with juvenile rheumatoid arthritis presented with jaundice, confusion, hemolytic anemia, thrombocytopenia, and acute renal failure secondary to titer-confirmed acute Epstein-Barr virus (EBV). Renal biopsy specimen revealed interstitial nephritis with an inflammatory infiltrate composed of cytotoxic/suppressor T cells, and interstitial mononuclear cell nuclei expressed EBV encoded RNA-1 (EBER-1) mRNA. Methylprednisolone treatment resulted in rapid improvement.

Denys-Drash syndrome with neonatal renal failure in monozygotic twins due to c.1097G>A mutation in the WT1 gene.

Denys-Drash syndrome, characterized by nephrosis, dysgenetic gonads and a predisposition to Wilms tumor, is due to germline mutations in the WT1 gene. We report the pathologic findings on monozygotic twins, both of whom presented with male pseudohermaphroditism, nephrotic syndrome, and progressed to renal failure and death within the first month of life. Sequence analysis of WT1 demonstrated a G-to-A substitution in exon 8 of the gene (c.1097G > A), resulting in an arginine-to-histidine (R366H) substitution in the second zinc finger domain. To the best of our knowledge, this is only the second set of monozygotic twins with Denys-Drash syndrome reported to date.