There are several proposed theories regarding the mechanism of spontaneous conjoined twinning; however, the specific mechanisms are still largely unknown. In this report, we highlight the morphological features in a murine example of cephalothoracopagus twinning, furthering our understanding of this rare occurrence while also demonstrating developmental morphogenesis consistent with that reported for human conjoined twins.
Suboptimal kidney development resulting from a genetic deficit in nephron number can have lifelong consequences that may lead to cardiorenal complications upon exposure to secondary insults in later life. To determine whether the inherited reduced renal reserve compromises the ability to handle osmotic stress in the adult animal, we challenged the heterozygous 3H1 Brachyrrhine (Br/+) mouse, which displays heritable renal hypoplasia associated with reduced embryonic six2 expression, to a solution of 2% NaCl for 5 days or to fluid restriction for 48 h. Blood chemistry, fluid intake, and physiological parameters, including renal measurements, were determined. Systemic hypertonicity by prolonged salt loading led to significant increases in plasma osmolality and plasma Na(+), along with polydipsia and polyuria, with a significant urine-concentrating defect that was resistant to DDAVP treatment in the adult Br/+ mouse compared with wild-type littermates. The Br/+ mouse also developed a significant increase in blood urea nitrogen at baseline that was further elevated when 2% NaCl was given. Fluid restriction for 48 h further enhanced plasma osmolality and plasma Na(+) responses, although the Br/+ mouse was evidently able to produce a small amount of concentrated urine at this time. Hypothalamic c-Fos expression was appropriately activated in the Br/+ mouse in response to both osmotic challenges, indicating an intact central neuroendocrine pathway that was not affected by the lack of congenital six2 expression. Collectively, our results demonstrate impaired osmoregulatory mechanisms consistent with chronic renal failure in the Br/+ mouse and indicate that six2 haploinsufficiency has a direct effect on postnatal fluid and electrolyte handling associated with fluid imbalance.
We have previously described the Br mutant mouse displaying heritable frontonasal dysplasia. Linkage analysis mapped the mutation near the homeobox transcription factor six2, normally expressed in the facial mesenchyme during development. The purpose of this study is to determine expression patterns of six2, as well as possible upstream and downstream targets of six2, in the developing midface. The three sets of facial prominences (medial, lateral, and maxillary) of E11.5 embryos were dissected and RNA extracted for qPCR assays and microarray analysis. Medial nasal prominences (MNP) were also taken for cell culture. qPCR results indicated six2 expression is highest in the MNP and demonstrated haploinsufficient down‐regulation in each of the three facial prominence sets in the Br mouse. Microarray results suggested the misregulation of several genes in the Br midface, including another member of the Six family of transcription factors: six3. qPCR and immunohistochemistry for six3 substantiated its upregulation in the microarray. Future work using RNA interference on six2 will be used to investigate possible pathways involving six2 and six3. Preliminary results using an in vitro knockdown of six2, performed on an MNP cell culture system utilizing siRNA, demonstrated a 65% knockdown of six2. These results may enable further in vitro work in order to elucidate a pathway in the developing midface involving six2.Grant Funding Source : NIH R01DK064752 (SL) & NCRR 5P20RR024206 (SJS)
The CL/Fr mouse demonstrates heritable bilateral and unilateral cleft lip and palate (CLP) at a rate of approximately 35%, generally above the background “A” strain mouse. Using classical mouse breeding strategies, it has been suggested that at least two disease loci, clf1 and clf2, are involved in the defect and candidate genes have been identified. Additionally, gene‐targeting analyses strongly suggest that Wnt9b contributes to CLP in the “A” strain mice. The aim of this study was to test the expression of clf1 and clf2 candidate genes in the facial prominences of CL/Fr embryos, utilizing microarray analysis. Medial nasal, lateral nasal, and maxillary prominences of phenotypically normal as well as cleft E11.5 CL/Fr mice were dissected and RNA was extracted using standard techniques for Agilent‐microarray protocol. Results indicate that expression of the clf1 candidate gene, Wnt9b, and the clf2 candidate gene, Ube2ql1, are significantly reduced (−3.11 and −1.83 fold, respectively) in the CL/Fr cleft tissues, suggesting these genes may be involved in the CLP mutation in CL/Fr mice. Future gene expression studies through quantitative RT‐PCR and regional expression analyses through immunohistochemistry and whole mount in situ hybridization will be performed to further test the expression of these clf1 and clf2 candidate genes.Grant Funding Source: NIH/NCRR 5P20RR024206 (S.J.S) and R01‐DK‐064752 (SL)
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