Integrated systems modeling of severe asthma: Exploration of IL-33/ST2 antagonism.

Asthma is a complex, heterogeneous disease with a high unmet medical need, despite therapies targeting a multitude of pathways. The ability to quantitatively integrate preclinical and clinical data on these pathways could aid in the development and testing of novel targets and therapeutics. In this work, we develop a computational model of asthma biology, including key cell types and mediators, and create a virtual population capturing clinical heterogeneity.

Isolation and culture of adult mouse cardiac myocytes.

Cardiac myocytes are activated by hormonal and mechanical signals and respond in a variety of ways, from altering contractile function to inducing cardio-protection and growth responses. The use of genetic mouse models allows one to examine the role of cardiac-specific and other genes in cardiac function, hypertrophy, cardio-protection, and diseases such as ischemia and heart failure. However, studies at the cellular level have been hampered by a lack of suitable techniques for isolating and culturing calcium-tolerant, adult mouse cardiac myocytes.

Localization of the mouse alpha1A-adrenergic receptor (AR) in the brain: alpha1AAR is expressed in neurons, GABAergic interneurons, and NG2 oligodendrocyte progenitors.

alpha(1)-Adrenergic receptors (ARs) are not well defined in the central nervous system. The particular cell types and areas that express these receptors are uncertain because of the lack of high avidity antibodies and selective ligands. We have developed transgenic mice that either systemically overexpress the human alpha(1A)-AR subtype fused with the enhanced green fluorescent protein (EGFP) or express the EGFP protein alone under the control of the mouse alpha(1A)-AR promoter.

Cardiac transgenic matrix metalloproteinase-2 expression directly induces impaired contractility.

Objective: Matrix metalloproteinase-2 (MMP-2) plays a major role in dysfunctional ventricular remodeling following myocardial injury induced by ischemia/reperfusion and heart failure. To directly assess the role of MMP-2 in the absence of superimposed injury, we generated cardiac-specific, constitutively active MMP-2 transgenic mice.

Methods: Morphologic and functional studies were carried out using both intact and demembranated (skinned) right ventricular trabeculae dissected from hearts of 8-month-old MMP-2 transgenic mice and wild-type controls (WT).

New technique for measurement of left ventricular pressure in conscious mice.

Concern about the effects of anesthesia on physiological measurements led us to develop methodology to assess left ventricular (LV) pressure in conscious mice. Polyethylene-50 tubing filled with heparinized saline was implanted in the LV cavity through its apex via an abdominal approach and exteriorized to the back of the animal. This surgery was done under anesthesia with either an intraperitoneal injection of ketamine (80 mg/kg) and xylazine (5 mg/kg) (K+X) in 11 mice or isoflurane (ISF; 1.

Vascular ECE-1 mRNA expression decreases in response to estrogens.

DNA microarrays were used to identify new targets of estrogen in the vasculature. Ovariectomized rats were treated with estradiol, genistein or daidzein, for four days. [33P]dCTP-labelled probes synthesized from mesenteric artery RNA were hybridized with DNA microarrays.

Estrogen decreases biglycan mRNA expression in resistance blood vessels.

This study was designed to identify new gene targets of estrogen in the mesenteric arteries and to determine whether the soy phytoestrogens could mimic estrogen effects. Ovariectomized rats were treated with estradiol, genistein, or daidzein for 4 days. The mesenteric arteries were harvested, total RNA was extracted, mRNA was reverse transcribed in the presence of [33P]dCTP, and the labeled probes were hybridized with DNA microarrays.

A method for the extraction of high-quality RNA and protein from single small samples of arteries and veins preserved in RNAlater.

Introduction: The mesenteric vasculature plays an important role in cardiovascular homeostasis, both in terms of arterial resistance and venous capacitance. However, the limited quantity of tissue available and the activity of RNases and proteases during dissection of the vessels make it difficult to study gene and protein expression in this tissue.

Methods: The mesenteric arcade was harvested from rats.