Cuba’s extraordinary global medical record shames the US blockade

Guardian, Dec 3, 2014
"Four months into the internationally declared Ebola emergency that has devastated west Africa, Cuba leads the world in direct medical support to fight the epidemic. The US and Britain have sent thousands of troops and, along with other countries, promised aid – most of which has yet to materialise. But, as the World Health Organisation has insisted, what’s most urgently needed are health workers. The Caribbean island, with a population of just 11m and official per capita income of $6,000 (£3,824), answered that call before it was made. It was first on the Ebola frontline and has sent the largest contingent of doctors and nurses – 256 are already in the field, with another 200 volunteers on their way." read the rest

Cuba says doctor catches Ebola in Sierra Leone

Washington Post: November 19, 2014 read the story
ttp://www.reuters.com/article/2014/11/19/us-health-ebola-cuba-idUSKCN0J32FT20141119

Cuban doctor with Ebola is stable, fever reduced: official

By Daniel Trotta HAVANA Wed Nov 19, 2014:54pm EST read the story


A Cuban Brain Drain, Courtesy of the U.S.

**Leer en español** (Read in Spanish) »
NOV. 16, 2014 New York Times criticizes the US government's Cuban Medical Professional Parole Programwhich is designed to encourage Cuban doctors to defect to the US. read the story


In the medical response to Ebola, Cuba is punching far above its weight

Washington Post: WorldViews
October 4: Note: this article Includes information about Cuba's health system and other Cuban international health solidarity programs. read the story

Samantha Power Praises Cuba for Ebola Response

Does Samantha Power, U.S. Ambassador to the United Nations’ praise of Cuban medical professionals signal a thawing of relations between the two countries?

Truth To Power 10.31.14 read the story


US sends health official to Cuban Ebola meeting

Oct. 29, 2014 12:26 PM EDT
HAVANA (AP) — The United States has sent a health official to a Cuban meeting on coordinating Latin America's response to Ebola. The participation of the Centers for Disease Control's Central America director is the most concrete sign to date of the two nations' expressed desire to cooperate against the disease. read the story

How Cuba is leading the international fight against Ebola

PRI's

The US has long had frosty relations with Cuba, and American officials rarely speak fondly of the small island nation. So it was a special moment on Friday when US Secretary of State John Kerry commended Cuba’s efforts in the battle against Ebola. (read more)

from the New York Times: Cuba’s Impressive Role on Ebola

**Leer en español** (Read in Spanish) »
OCT. 19, 2014

read the entire editorial

The Science of Ebola and Viruses



Science | ​NYT Now=Ebola and the Vast Viral Universe=
OCT. 27, 2014

Photoexternal image 28ANGI-master495-v2.jpg
Advances in microscopy have allowed scientists like Sriram Subramaniam and colleagues at the National Cancer Institute to look at the workings of tiny viruses. In this case, microscopy was used to illustrate the complex process in which human cells infected with HIV-1, green and blue, are linked to uninfected cells. Credit Illustration by Donald Bliss/N.I.H, from The Journal of Virology/American Society for Microbiology
Basics
By

Behind the hellish Ebola epidemic ravaging West Africa lies an agent that fittingly embodies the mad contradictions of a nightmare. It is alive yet dead, simple yet complex, mindless yet prophetic, seemingly able to anticipate our every move.
For scientists who study the evolution and behavior of viruses, the Ebola pathogen is performing true to its vast, ancient and staggeringly diverse kind. By all evidence, researchers say, viruses have been parasitizing living cells since the first cells arose on earth nearly four billion years ago.
Some researchers go so far as to suggest that viruses predate their hosts. That they essentially invented cells as a reliable and renewable resource they could then exploit for the sake of making new viral particles.
It was the primordial viral “collective,” said Luis P. Villarreal, former director of the Center for Virus Research at the University of California, Irvine, “that originated the capacity for life to be self-sustaining.”
“Viruses are not just these threatening or annoying parasitic agents,” he added. “They’re the creative front of biology, where things get figured out, and they always have been.”
Researchers are deeply impressed by the depth and breadth of the viral universe, or virome. Viruses have managed to infiltrate the cells of every life form known to science. They infect animals, plants, bacteria, slime mold, even larger viruses. They replicate in their host cells so prodigiously and stream out into their surroundings so continuously that if you collected all the viral flotsam afloat in the world’s oceans, the combined tonnage would outweigh that of all the blue whales.
Not that viruses want to float freely. As so-called obligate parasites entirely dependent on host cells to replicate their tiny genomes and fabricate their protein packages newborn viruses, or virions, must find their way to fresh hosts or they will quickly fall apart, especially when exposed to sun, air or salt.
“Drying out is a death knell for viral particles,” said Lynn W. Enquist, a virologist at Princeton.
Continue reading the main story
How long shed virions can persist if kept moist and unbuffeted — for example, in soil or in body excretions like blood or vomit — is not always clear but may be up to a week or two. That is why the sheets and clothing of Ebola patients must be treated as hazardous waste and surfaces hosed down with bleach.
Viruses are masters at making their way from host to host and cell to cell, using every possible channel. Whenever biologists discover a new way that body cells communicate with one another, sure enough, there’s a virus already tapping into exactly that circuit in its search for new meat.
Continue reading the main story===Graphic===

Treating Ebola: The Hunt for a Drug

Although there are currently no drugs or vaccines approved in the United States to treat or prevent Ebola, health officials have used several experimental drugs in the recent epidemic.
external image ebola-drugs-1414098871036-master495.png
OPEN Graphic
Reporting recently in Proceedings of the National Academy of Sciences, Karla Kirkegaard, a professor of microbiology and genetics at Stanford University School of Medicine, and her colleagues described a kind of “unconventional secretion” pathway based on so-called autophagy, or self-eating, in which cells digest small parts of themselves and release the pieces into their surroundings as signaling molecules targeted at other cells — telling them, for example, that it’s time for a new round of tissue growth.
Continue reading the main story
The researchers determined that the poliovirus can exploit the autophagy conduit to cunning effect. Whereas it was long believed that new polio particles could exit their natal cell only by bursting it open and then seeking new cells to infect, the researchers found that the virions could piggyback to freedom along the autophagy pathway.
In that way, the virus could expand its infectious empire without destroying perfectly good viral factories en route. The researchers suspect that other so-called naked or nonenveloped viruses (like the cold virus and the enteroviruses that have lately plagued children in this country and Asia) could likewise spread through unconventional secretion pathways.
For their part, viruses like Ebola have figured out how to slip in and out of cells without kicking up a fuss by cloaking themselves in a layer of greasy lipids stolen from the host cell membrane, rather as you might foist a pill down a pet’s throat by smearing it in butter.
According to Eric O. Freed, the head of the virus-cell interaction section at the National Cancer Institute, several recent technological breakthroughs have revolutionized the study of viruses.
Advances in electron microscopy and super-resolved fluorescence microscopy — the subject of this year’s Nobel Prize in Chemistry — allow scientists to track the movement of viral particles in and between cells, and to explore the fine atomic structure of a virus embraced by an antibody, or a virus clasped onto the protein lock of a cell.
Through ultrafast gene sequencing and targeted gene silencing techniques, researchers have identified genes critical to viral infection and drug resistance. “We’ve discovered viruses we didn’t even know existed,” Dr. Freed said. And that could prove important to detecting the emergence of a new lethal strain.
Gene sequencing has also allowed researchers to trace the deep background of viruses, which, at an average of a few billionths of an inch across, are far too minuscule to fossilize. In fact, viruses were first identified in the 19th century by size, as infectious agents able to pass through filters that trapped all bacteria.
Through genomic analysis, researchers have identified ancient viral codes embedded in the DNA of virtually every phyletic lineage. The unmistakable mark of a viral code? Instructions for making the capsid, the virus’s protective protein shell, which surrounds its genetic core and lends the viral particle its infectious power.
Continue reading the main story==More Ebola Coverage==
  • What You Need to Know About the Ebola Outbreak
    What You Need to Know About the Ebola Outbreak

What You Need to Know About the Ebola Outbreak

Questions and answers on the scale of the outbreak and the science of the Ebola virus.
  • The Reality of Ebola, a World Away
    The Reality of Ebola, a World Away
LETTER FROM AFRICA===The Reality of Ebola, a World Away===
One disadvantaged corner of the world is beset by a calamity, and the rest of the world peers in, incapable of understanding the extent of the chaos on the ground.
  • In Layers of Gear, Offering Healing Hand to Ebola Patients in Liberia
    In Layers of Gear, Offering Healing Hand to Ebola Patients in Liberia

In Layers of Gear, Offering Healing Hand to Ebola Patients in Liberia

Doctors offer Ebola patients simple comforts, like feeding them or cleaning them up. But they also try to restrain their own impulses, because old habits might not be safe.
  • Opting Against Ebola Drug for Ill African Doctor
    Opting Against Ebola Drug for Ill African Doctor

Opting Against Ebola Drug for Ill African Doctor

International colleagues of the doctor who had been leading Sierra Leone’s battle against the outbreak had to decide whether to give him a drug never before tested on people.
“It turns out there are not many ways to make the pieces that will snap together into an effective package,” said Dr. Enquist, of Princeton. “It’s an event that may have occurred only once or twice” in evolutionary history.
Viruses are also notable for what they lack. They have no ribosomes, the cellular components that fabricate the proteins that do all the work of keeping cells alive.
Instead, viruses carry instructions for co-opting the ribosomes of their host, and repurposing them to the job of churning out capsid and other viral proteins. Other host components are enlisted to help copy the instructions for building new viruses, in the form of DNA or RNA, and to install those concise nucleic texts in the newly constructed capsids.
Continue reading the main story Continue reading the main story
Continue reading the main story
“Viruses are almost miraculously devious,” Dr. Freed said. “They’re just bundles of protein and nucleic acid, and they’re able to get into cells and run the show.”
“On the one hand, they’re quite simple,” Dr. Enquist said. “On the other hand, they may be the most highly evolved form of genetic information on the planet.”
Viruses also work tirelessly to evade the immune system that seeks to destroy them. One of the deadliest features of the Ebola virus is its capacity to cripple the body’s first line of defense against a new pathogen, by blocking the release of interferon.
“That gives the virus a big advantage to grow and spread,” said Christopher F. Basler, a professor of microbiology at Mount Sinai School of Medicine.
At the same time, said Aftab Ansari of Emory University School of Medicine, the virus disables the body’s coagulation system, leading to uncontrolled bleeding. By the time the body can rally its second line of defense, the adaptive immune system, it is often too late.
Yet the real lethality of Ebola, Dr. Ansari said, stems from a case of mistaken location, a zoonotic jump from wild animal to human being. The normal host for Ebola virus is the fruit bat, in which the virus replicates at a moderate pace without killing or noticeably sickening the bat.
“A perfect parasite is able to replicate and not kill its host,” Dr. Ansari said. “The Ebola virus is the perfect parasite for a bat.”
Correction: October 28, 2014
An earlier version of this article referred incorrectly to the position Luis P. Villarreal holds at the Center for Virus Research at the University of California, Irvine. He is a professor at the center and its founding director, but he is not the current director. A picture credit with an earlier version of this article mistated part of the name of an organization. It is the American Society for — not of — Microbiology
A version of this article appears in print on October 28, 2014, on page D3 of the New York edition with the headline: Why Viruses Went Viral.