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BPD: Chief Beckner moving on
Feb 18th
Boulder Police Chief Mark Beckner today announced his retirement effective April 1 after 36 years as a Boulder police officer. Beckner joined the department in 1978 as a patrol officer, became a detective, sergeant, hostage negotiator, commander, including commander of the SWAT team, and, in 1998, was selected as Boulder’s police chief.
Beckner retiring after 36 years with BPD
“Throughout Chief Beckner’s career, he has served with honor and integrity,” said City Manager Jane Brautigam. “His commitment helped to define the culture of the Boulder Police Department and what our community expects from its public servants. I am very grateful to have had Mark’s counsel and experience as we dealt with community emergencies from wildfires to last year’s enormous flood, and as we worked to make Boulder a safer community. Through his leadership, we have built a strong police department that will continue to serve and protect the community for years to come.”
During Beckner’s tenure as chief, the Police Department opened the Communications Center, implemented the motorcycle traffic unit, received Colorado Accreditation through the Colorado Association of Chiefs of Police, created the Major Crimes Unit, oversaw the planning and construction of the police training center and firearms range, brought Animal Control Services and Code Enforcement under the department, and worked with the Colorado Bureau of Investigation to create, fund, and staff a CBI DNA lab in the Boulder Police Department.
“It has been a privilege and an honor to serve Boulder,” said Beckner. “Over the past 36 years, we’ve covered a lot of ground from riots to Presidential visits, but what I will treasure most is the interactions and support from the community as we faced tragedies and celebrated successes together. “Boulder has been a very rewarding career,” he said. “I am very appreciative to have served with so many fine men and women who helped build a strong, honorable department. And while it’s difficult to close this final chapter of a long and exciting career in law enforcement, I know that the department is in very capable hands, and I’m looking forward to new opportunities in my future.”
Over the next few weeks, Brautigam will be working with the police and city human resources departments to develop a search process for Boulder’s next police chief.
–CITY–
NOAA: Boulder IS the windy city
Feb 18th
Overheard in a local eatery: “I’d rather have two feet of snow than all this wind. This is driving me mad.”
Everything you have wanted to know about high winds in Boulder, and then some.
In a nut shell: In 42 years worth of data, 175 days recorded winds of 70 m.p.h. or greater. Eighty six of these occurred in December and January. The highest wind gust recorded was 137 m.p.h. on Jan. 16-17, 1982, with 20 gusts of greater than 120 m. p. h. Forty percent of all Boulder buildings sustained damage. Most of the highest winds were in south Boulder.
The highest wind recorded in the Boulder area was 137 mph
Boulder has some of the highest peak winds of any city in the US.
For data and tables, go to:
http://www.esrl.noaa.gov/psd/boulder/wind.html
CU: Stem cells boost aging muscles
Feb 16th
CU-Boulder stem cell research may point
to new methods of mitigating muscle loss
to new methods of mitigating muscle loss
New findings on why skeletal muscle stem cells stop dividing and renewing muscle mass during aging points up a unique therapeutic opportunity for managing muscle-wasting conditions in humans, says a new University of Colorado Boulder study.
According to CU-Boulder Professor Bradley Olwin, the loss of skeletal muscle mass and function as we age can lead to sarcopenia, a debilitating muscle-wasting condition that generally hits the elderly hardest. The new study indicates that altering two particular cell-signaling pathways independently in aged mice enhances muscle stem cell renewal and improves muscle regeneration.
One cell-signaling pathway the team identified, known as p38 MAPK, appears to be a major player in making or breaking the skeletal muscle stem cell, or satellite cell, renewal process in adult mice, said Olwin of the molecular, cellular and developmental biology department. Hyperactivation of the p38 MAPK cell-signaling pathway inhibits the renewal of muscle stem cells in aged mice, perhaps because of cellular stress and inflammatory responses acquired during the aging process.
The researchers knew that obliterating the p38 MAPK pathway in the stem cells of adult mice would block the renewal of satellite cells, said Olwin. But when the team only partially shut down the activity in the cell-signaling pathway by using a specific chemical inhibitor, the adult satellite cells showed significant renewal, he said. “We showed that the level of signaling from this cellular pathway is very important to the renewal of the satellite cells in adult mice, which was a very big surprise,” said Olwin.
A paper on the subject appeared online Feb. 16 in the journal Nature Medicine.
One reason the CU-Boulder study is important is that the results could lead to the use of low-dose inhibitors, perhaps anti-inflammatory compounds, to calm the activity in the p38 MAPK cell-signaling pathway in human muscle stem cells, said Olwin.
The CU-Boulder research team also identified a second cell-signaling pathway affecting skeletal muscle renewal – a receptor known as the fibroblast growth factor receptor-1, or FGFR-1. The researchers showed when the FGFR-1 receptor protein was turned on in specially bred lab mice, the renewal of satellite cells increased significantly. “We still don’t understand how that particular mechanism works,” he said.
Another major finding of the study was that while satellite cells transplanted from young mice to other young mice showed significant renewal for up to two years, those transplanted from old mice to young mice failed. “We found definitively that satellite cells from an aged mouse are not able to maintain the ability to replenish themselves,” Olwin said. “This is likely one of the contributors to loss of muscle mass during the aging process of humans.”
Co-authors included first author and CU-Boulder postdoctoral researcher Jennifer Bernet, former CU-Boulder graduate student John K. Hall, CU-Boulder undergraduate Thomas Carter, and CU-Boulder postdoctoral researchers Jason Doles and Kathleen Kelly-Tanaka. The National Institutes of Health and the Ellison Medical Foundation funded the study.
Olwin said skeletal muscle function and mass decline with age in humans beginning at roughly age 40. While there are a variety of muscle-wasting diseases — ranging from muscular dystrophy to Lou Gehrig’s disease — the condition known as sarcopenia can lead to severe muscle loss, frailty and eventual death and is leading to skyrocketing health care costs for the elderly. “If you live long enough, you’ll get it,” he said.
Olwin and his team worked closely on the research with a team from Stanford University led by Professor Helen Blau, which published a companion paper in the same issue of Nature Medicine. “We shared data with the Stanford team during the entire process and we all were very pleased with the study outcomes,” said Olwin. “This is how science should work.”
